Podcasts about quantum information

China's latest commitment to advancing cutting-edge technologies — including quantum computing, artificial intelligence and 6G — will solidify its position as a global leader in innovation, and the strategic push will enable the country to navigate global uncertainties while sustaining its competitive advantage, experts and business executives said.专家和企业高管们表示，中国最近致力于推动包括量子计算、人工智能和6G等前沿技术的发展，这将巩固中国作为全球创新领导者的地位，而这一战略推动将使中国能够在保持竞争优势的同时应对全球的不确定性。Underscoring the importance of securing technological breakthroughs and efficiently commercializing them, they said that China's push for new quality productive forces will create vast opportunities for domestic and international businesses.他们强调了确保技术突破并将其有效商业化的重要性，并表示中国对新的优质生产力的推动将为国内外企业创造大量机会。Their comments follow President Xi Jinping's remark that technological innovation and industrial innovation constitute the fundamental pathways for developing new quality productive forces.习近平主席曾指出，技术创新和产业创新是发展高质量新生产力的根本途径。Xi made the remark when participating in a deliberation in Beijing on March 5 with his fellow deputies from Jiangsu province during the third session of the 14th National People's Congress, China's top legislature.3月5日，在中国最高立法机构--第十四届全国人民代表大会第三次会议期间，习近平在北京与江苏省人大代表一起参加审议时说了这番话。China's 2025 Government Work Report also said the nation "will establish a mechanism to increase funding for industries of the future and foster industries such as biomanufacturing, quantum technology, embodied AI and 6G technology".中国《2025年政府工作报告》也表示，中国 “将建立未来产业资金投入增长机制，培育生物制造、量子技术、人工智能、6G技术等产业”。Wang Yiming, vice-chairman of the China Center for International Economic Exchanges, said, "China's economy has entered a critical period of transitioning between old and new growth drivers."中国国际经济交流中心副理事长王一鸣表示，“中国经济已进入新旧增长动力转换的关键时期”。He said future-oriented technologies are not only at the forefront of innovation, but are also strategic pillars for reshaping industrial competition and boosting productivity."他说，面向未来的技术不仅是创新的前沿，也是重塑产业竞争格局、提升生产力的战略支柱。Their significance lies in both upgrading traditional industries and securing a leading position in emerging sectors," Wang said.它们的意义在于既能提升传统产业，又能确保在新兴产业中的领先地位。Guo Guoping, deputy director of the Key Lab of Quantum Information at the Chinese Academy of Sciences, said he was deeply impressed by China's support for quantum technology.中国科学院量子信息重点实验室副主任郭国平说，中国对量子技术的支持给他留下了深刻印象。He compared quantum technology to an aircraft, with quantum computing serving as its "engine", providing exponential computational power for fields such as national defense, biomedicine, energy materials and AI.他把量子技术比作一架飞机，量子计算是飞机的“发动机”，为国防、生物医药、能源材料和人工智能等领域提供指数级计算能力。"Quantum computing is transitioning from the lab to industrialization. China has become the third country in the world capable of delivering quantum computers, after Canada and the United States, positioning China in the global first tier of quantum research. But challenges remain in some areas," Guo said."量子计算正在从实验室向产业化过渡。中国已成为继加拿大和美国之后，世界上第三个能够提供量子计算机的国家，跻身全球量子研究第一梯队。但在某些领域仍存在挑战，"郭说。He stressed the need for increased investment in basic research and advocated leveraging China's unique advantages in mobilizing resources to tackle core technological challenges.他强调了增加基础研究投入的必要性，并主张发挥中国在调动资源应对核心技术挑战方面的独特优势。China's research and development spending climbed to 3.6 trillion yuan ($497 billion) in 2024, an 8 percent year-on-year increase, according to the National Bureau of Statistics. Of this total, funding allocated to basic research accounted for 6.91 percent of the R&D budget, underscoring heightened investment in foundational scientific exploration.根据国家统计局的数据，到2024年，中国的研发支出将攀升至3.6万亿元（约合4,970亿美元），同比增长8%。其中，分配给基础研究的资金占研发预算的6.91%，凸显了对基础科学探索的投资力度加大。Meanwhile, more than 570 Chinese industrial companies have made it to the global top 2,500 companies in terms of R&D investment, according to the Ministry of Industry and Information Technology.与此同时，根据工业和信息化部的数据，已有超过570家中国工业企业进入全球研发投入前2500强。Xu Lijin, a member of the National Committee of the Chinese People's Political Consultative Conference, the nation's top political advisory body, and chairman of Wuhu Robot Industry Development Group, said that embodied AI, as highlighted in the Government Work Report, refers to AI that is integrated into physical hardware such as robots. It represents a significant leap in intelligent systems capable of interacting with and adapting to their environments.全国政协委员、芜湖机器人产业发展集团董事长徐立金表示，《政府工作报告》中强调的“嵌入式人工智能 ”是指将人工智能集成到机器人等物理硬件中。它代表着能够与环境交互并适应环境的智能系统的重大飞跃。"Robotics and AI are dual engines driving economic and social development in the era of global digital transformation," Xu said"机器人和人工智能是全球数字化转型时代推动经济社会发展的双引擎。"他说Qiao Hong, an academician of the Chinese Academy of Sciences, said, "Over the past three years, China has accounted for more than half of the global installation of industrial robots, and its lunar exploration robots have successfully returned lunar soil samples."中国科学院院士乔红说："近三年来，中国工业机器人的安装量已占全球一半以上，中国的探月机器人已成功返回月球土壤样本。However, challenges remain. For instance, high-end sensors like precision lidar, short for light detection and ranging, still rely on imports, and domestic alternatives lag in accuracy and stability, experts added.然而，挑战依然存在。专家补充说，例如，像精密激光雷达（光探测和测距的简称）这样的高端传感器仍然依赖进口，而国产替代品在精度和稳定性方面都比较落后。Zhang Li, president of the China Center for Information Industry Development, said: "Leveraging its robust and comprehensive industrial ecosystem, China creates expansive real-world testing grounds and vast market opportunities for technological innovation. This infrastructure not only accelerates the development of emerging industries, but also provides a resilient foundation for nurturing future-oriented sectors poised to redefine global markets."中国信息产业发展研究中心主任张莉说："中国凭借其强大而全面的产业生态系统，为技术创新创造了广阔的现实世界试验场和巨大的市场机遇。这种基础设施不仅加快了新兴产业的发展，也为培育未来导向型行业奠定了坚实的基础，这些行业将重新定义全球市场。As the world's largest manufacturing country, China ranks first globally in terms of output for more than 40 percent of the world's 500 major industrial products, data from the Ministry of Industry and Information Technology showed.工业和信息化部的数据显示，作为世界上最大的制造业国家，在世界500种主要工业产品中，中国有40%以上的产品产量位居全球第一。Industrial innovation must remain rooted in the real economy, Zhang said, noting that China's economy "has historically relied on the real economy, and it is through this foundation that it will continue to progress".张说，产业创新必须始终植根于实体经济，她指出，中国经济“历来依靠实体经济，正是通过这一基础，中国经济才会不断进步”。Ding Haiyu, deputy head of the China Mobile Research Institute, said that 6G "has entered its tech standardization phase this year, as we aim to commercialize the technology around 2030. AI-powered 6G will unlock significant opportunities".中国移动研究院副院长丁海玉说，6G "今年已进入技术标准化阶段，我们的目标是在2030年左右实现技术商用。人工智能驱动的6G将带来重大机遇"。Zheng Yongnian, dean of the School of Public Policy at the Chinese University of Hong Kong (Shenzhen), said, "To cultivate new quality productive forces, a country should prioritize three foundational pillars — advancing fundamental scientific research, bridging the gap between theoretical discoveries and applied technological solutions, and fostering a financial ecosystem capable of sustaining innovation-driven growth."香港中文大学（深圳）公共政策学院院长郑永年说：“一个国家要培育新的优质生产力，应优先考虑三大基础支柱--推进基础科学研究、弥合理论发现与应用技术解决方案之间的差距，以及培育能够维持创新驱动增长的金融生态系统。”"Expanding institutional opening-up is the strategic guarantee for nurturing new quality productive forces," Zheng said."扩大制度性开放是培育新的优质生产力的战略保障。”他说David Poon, president of Infineon Technologies Greater China, said China's focus on green, low-carbon and high-quality development aligns with the German chip maker's strengths and opens new growth opportunities.英飞凌科技大中华区总裁表示，中国注重绿色、低碳和高质量发展，这与这家德国芯片制造商的优势不谋而合，并带来了新的发展机遇。"With our 'In China, For China' strategy, we plan to increase local production of general-purpose semiconductors to address customer needs regarding supply resilience," Poon said.他说：”根据我们的'在中国，为中国'战略，我们计划增加通用半导体的本地化生产，以满足客户对供应弹性的需求。navigatevt.航行于；驾驶，操纵；使通过vi.航行，航空aircraftn. 飞机，航空器quantumn. 量子定量;总量semiconductorn.〈物〉半导体

What does the future hold? Neil deGrasse Tyson teams up with comic co-host Chuck Nice, Gary O'Reilly, and astrophysicist Charles Liu to break down our visions of the future – and take Neil to task on his own predictions.NOTE: StarTalk+ Patrons can listen to this entire episode commercial-free here:https://startalkmedia.com/show/can-we-predict-the-future-with-charles-liu/Thanks to our Patrons Walter Kinslow, Eric Johnston, Marta M, Rick Stevens, Miguel, Gary Randall, Daniel Rhea, Sam Rodriguez, Mike Parker, Duncan Weatherspoon, Bonney M ELY, Claudio Gallo, Sidney Carthell, Scott Starr, Victor Herbrecht, Lawrence, Dylan Quay, Ablu, Sean Smitth, James Falconi, Rottenjosh aka Transmedal2, Hilbert Malada, TronoWolf, Courtney Makara, William Flaherty, Justin Andrade, Dipen, Krystal Tellez, David Murdock, John Tedesco, Sasank, Bill Herbert, Ismail Shahtakhtinski, and Scott Wasserman for supporting us this week. Subscribe to SiriusXM Podcasts+ to listen to new episodes of StarTalk Radio ad-free and a whole week early.Start a free trial now on Apple Podcasts or by visiting siriusxm.com/podcastsplus.

Javier Magán on Quantum Field Theory, Quantum Gravity, Quantum Information, Quantum Chaos and Quantum Complexity.

Outline00:00 - Intro00:49 - Early education and PhD in control10:35 - Non-negative linear algebra & modelling uncertainty principle22:50 - Influence of Willems & the Frisch scheme34:27 - Subspace identification & stochastic behavioural system theory38:39 - Stanford experience with Golub & Kailath53:30 - Return to Leuven: LS-SVMs, quantum information, and beyond1:07:48 - Multilinear algebra and tensor trains1:11:59 - Exact/approximate modelling and angles between systems1:25:34 - Back to the roots1:46:01 - On entrepreneurship: advice to future students1:56:32 - OutroLinksBart's website: https://www.bartdemoor.be/Bart's PhD Thesis: https://tinyurl.com/ryfu786hJ. Willems: https://tinyurl.com/26zcrkc6From finite time series to linear system: https://tinyurl.com/4cvzpun6Subspace Identification For Linear Systems: https://tinyurl.com/5n8u228kGrassmann's identity: https://tinyurl.com/37ey48daL. Ljung: https://tinyurl.com/2p9k74cmG. Golub: https://tinyurl.com/rteww7rbThe restricted singular value decomposition: https://tinyurl.com/3pzhw8p4LS-SVMs: https://tinyurl.com/ykv7uvfvFour qubits can be entangled in nine different ways: https://tinyurl.com/y367kkcpHigh-order SVD: https://tinyurl.com/34u4p7h9Subspace angles between ARMA models: https://tinyurl.com/29cta3rmExact and approximate modeling of linear systems: https://tinyurl.com/ykkbb9k4Back to the roots: https://tinyurl.com/ym6bvs38Resultant: https://tinyurl.com/32un7tbvMultidimensional system: https://tinyurl.com/jswpsr2sMacaulay resultant: https://tinyurl.com/y4skuevwLeast squares realization of LTI models is an eigenvalue problem: https://tinyurl.com/3x9dmjnkSupport the Show.Podcast infoPodcast website: https://www.incontrolpodcast.com/Apple Podcasts: https://tinyurl.com/5n84j85jSpotify: https://tinyurl.com/4rwztj3cRSS: https://tinyurl.com/yc2fcv4yYoutube: https://tinyurl.com/bdbvhsj6Facebook: https://tinyurl.com/3z24yr43Twitter: https://twitter.com/IncontrolPInstagram: https://tinyurl.com/35cu4kr4Acknowledgments and sponsorsThis episode was supported by the National Centre of Competence in Research on «Dependable, ubiquitous automation» and the IFAC Activity fund. The podcast benefits from the help of an incredibly talented and passionate team. Special thanks to L. Seward, E. Cahard, F. Banis, F. Dörfler, J. Lygeros, ETH studio and mirrorlake . Music was composed by A New Element.

Two researchers have proved that Penrose tilings, famous patterns that never repeat, are mathematically equivalent to a kind of quantum error correction. Read more at QuantaMagazine.org. Music is “Quasi Motion” by Kevin MacLeod.

To give to the Behind Greatness podcast, please visit here: https://behindgreatness.org. As a charity, tax receipts are issued to donors.  For Rudy, part 1 and part 2, please have a listen to episode #179 and #186. Welcome back to Behind Greatness. We are back again with Rudy. Rudy is a pre-eminent expert on black holes and a world-renowned Astrophysicist from Harvard, practising in the field since the mid-1960s. He is also the co-Founder of FREE / CCRI (see co-Founder past guests Rey Hernandez & Mary Rodwell) and also the Editor in Chief of the Journal of Cosmology. Rudy brings us through a discussion on various cosmic topics: the earth's giant radio telescope, that we can now see the character of the black hole for the 1st time, and an explanation on why our classical definition of the black hole is now proven to be incorrect (congruent with his theory from decades ago). We hear about the significance of interstellar dust samples, biological material in space and plants spilling out their DNA. Rudy further tickles us with his thoughts on the quantum attribute of space that records what we say and think and his thoughts on the inside-out black hole: the distant horizon. And in case you're wondering, we get to the “G-word” and the possibility of a supreme being. Play with this: “The human mind accesses the black hole to get glimpses of the past” - Rudy Schild. … to be continued… See earlier episodes with Rudy's FREE/CCRI co-Founders Rey Hernandez (ep 153, 154) & Mary Rodwell (ep 149). Rudy, Center for Astrophysics – https://www.cfa.harvard.edu/ Journal of Cosmology - https://thejournalofcosmology.com/About.html Personal website - http://www.rudyschild.com/ List of Published papers - https://ui.adsabs.harvard.edu/search/p_=0&q=author%3A(%22schild%2Cr%22)&sort=date%20desc%2C%20bibcode%20desc CCRI (Consciousness & Contact Research Institute) - https://agreaterreality.com/ Book (co-Author with Suzy Hansen) – Dual Soul Connection: The Alien Agenda for Human Advancement: https://www.amazon.com/Dual-Soul-Connection-Agenda-Advancement/dp/0473295644/ref=sr_1_1?crid=3J7YBLDXEL5H8&keywords=Dual+Soul+Connection%3A+The+Alien+Agenda+for+Human+Advancement&qid=1706573177&sprefix=dual+soul+connection+the+alien+agenda+for+human+advancement%2Caps%2C214&sr=8-1 Book: Beyond UFOs: The Science of Consciousness & Contact with Non Human Intelligence - https://www.amazon.com/Beyond-UFOs-Science-Consciousness-Intelligence/dp/1721088652/ctoc Edgar Mitchell Book: The Way of the Explorer: An Apollo Astronaut's Journey Through the Material and Mystical Worlds - https://www.amazon.com/Way-Explorer-Astronauts-Material-Mystical/dp/0399141618 NASA – Stratospheric Observatory For Infrared Astronomy “SOFIA” - https://science.nasa.gov/mission/sofia/

Ordinateur quantique, physique quantique, on parle de quoi? Merci d'avoir écouté cet épisode jusqu'au bout. Pour suivre les actualités de la Gallery et tenter de rejoindre la communauté : ⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠https://thethinkinggallery.substack.com/⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠ ----------------------------- Découvrir l'intégralité de l'épisode

Les défis majeurs de l'ordinateur quantique pour voir le jour Merci d'avoir écouté cet épisode jusqu'au bout. Pour suivre les actualités de la Gallery et tenter de rejoindre la communauté : ⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠https://thethinkinggallery.substack.com/⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠ ----------------------------- Découvrir l'intégralité de l'épisode

Aujourd'hui, Arthur et Paul accueillent Jérémie Guillaud (chef de la théorie et CEO par intérim d'Alice & Bob) à leur micro pour tout comprendre à la physique quantique. Durant cet épisode, Jérémie revient sur ce qu'est le quantique, quelles sont les applications de cette physique, les défis qui restent à relever, les impacts que cela va avoir sur notre monde et comment il voit les choses. Au cours de l'épisode, Jérémie parle de : L'Inria Alexia Auffeves Olivier Ezratty Quantum Computation and Quantum Information: 10th Anniversary Edition Cet épisode est tourné depuis les studios d'Orso Média : un collectif qui fédère les voix incontournables du podcast français dans les univers de l'entrepreneuriat, des finances et de l'innovation. Merci d'avoir écouté cet épisode jusqu'au bout. Pour suivre les actualités de la Gallery et tenter de rejoindre la communauté : ⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠https://thethinkinggallery.substack.com/

00:00 Introduction 08:03 Interview Begins 09:42 How Chiara found herself at the foundations of physics 15:30 How Chiara found Everett 19:13 No Special Physics is required for Observers 21:02 What is a counterfactual? How is it linked to a constructor? 29:05 What is (classical) information? How is it different to quantum information? 32:30 Quantum Information is more constrained. This makes it more powerful. 34:08 Is the universe made of information? 38:04 The Simulation Hypothesis 40:33 The second law of thermodynamics 53:16 The AI Apocalypse? 58:02 How do we help a human become passionate about knowledge? 59:39 The Fine Tuning Problem 01:07:48 The Constructor Theoretic Notion of Knowledge 01:10:52 Constructor Theoretic Knowledge as a window on the origins of life. 01:12:16 The links between physics, epistemology and biology 01:14:15 Experimentally testing the quantum nature of gravity 01:26:05 Where to find out more   Support me by following the links at www.bretthall.org

Aggie Branczyk sits down with Ekaterina Babourina-Brooks, a former theoretical quantum information PhD student at the University of Queensland (Brisbane, Australia) who moved to the UK to become a high school teacher. Ekaterina combined her physics education with an apprenticeship-style teaching program designed to accelerate the transition of professionals into teaching roles. Now she's back in Australia where she teaches physics and math. In this episode, Ekaterina talks about her day-to-day as a teacher, including the joy of student interactions and the challenges of administrative duties. She shares her experience as a PhD student and gives some practical advice for current PhD students considering teaching.Aggie Branczyk on LinkedInEkaterina Babourina-Brooks on LinkedInPodcast video on YouTube Opening music by Alexey Ivanov from Pixabay.---Aggie works at IBM as a Senior Research Scientist on the Quantum Computational Science team, and the opinions shared in this podcast are her own and are not in any way endorsed by IBM.

If anyone needs no introduction on a podcast about quantum computing, it's John Preskill. His paper "Quantum Computing in the NISQ era and beyond," published in 2018, is the source of the acronym "NISQ," for Noisy, Intermediate Scale Quantum" computers -- basically everything we are going to build until we get to effective error correction. It's been cited almost 6000 times since, and remains essential reading to this day.John is a particle physicist and professor at Caltech whose central interests are actually cosmology, quantum matter, and quantum gravity -- he sees quantum computing as a powerful means to gain more understanding of the fundamental behavior of our universe. We discuss the information paradox of black holes, quantum error correction, some history of the field, and the work he's doing with his PhD student Robert (Hsin-Yuan) Huang using machine learning to estimate various properties of quantum systems.  How did you become interested in quantum information? 5:13 The discovery of Shor's algorithm. 10:11 Quantum error correction. 15:51 Black holes and it from qubit. 21:19 Is there a parallel between error correcting codes and holographic projection of three dimensions? 27:27 The difference between theory and experiment in quantum matter. 38:56 Scientific applications of quantum computing. 55:58 Notable links: The Physics of Quantum Information, adapted from John's talk at the Solvay Conference on the Physics of Information Quantum Computing 40 Years Later, an update to John's NISQ paper on the occasion of the 40th anniversary of the conference at Endicott, the Physics of Computation. Lecture notes for John's class on quantum computing at Caltech, PH229 Predicting many properties of a quantum system from very few measurements, one of the papers Robert Huang has published with John, appearing in Nature Physics Tweetables and Quotes:“The idea that you can solve problems efficiently that you'd never be able to solve because it's a quantum world and not a world governed by classical physics, I thought that was one of the coolest ideas I'd ever encountered.” — John Preskill“There's something different about quantum information than ordinary information. You can't look at it without disturbing it.” — John Preskill“Ideas which were being developed without fundamental physics, necessarily in mind, like quantum error correction, have turned out to be very relevant in other areas of physics.” — John Preskill“Thinking about quantum error correction in the context of gravitation led us to construct new types of codes which weren't previously known. “ — John Preskill“With quantum computers and quantum simulators, we can start to investigate new types of matter, new phases, which are far from equilibrium.“ — John Preskill.

In Episode 67, Patrick and Ciprian speak with Román Orús, Co-founder and Chief Scientific Officer at Multiverse Computing.The team discusses industry applications of Quantum software, material science, Artificial Intelligence, and the future of Quantum disruptions.Prof. Román Orús is Ikerbasque research professor at the Donostia International Physics Center (DIPC) in San Sebastián, Spain, and co-founder and CSO of Multiverse Computing, the largest quantum software company in the European Union. After obtaining his degree and PhD in Physics at the University of Barcelona in 2006, he worked as a research fellow at the University of Queensland, Australia, and the Max Planck Institute of Quantum Optics, Germany, as well as a junior professor at Johannes Gutenberg-Universität in Mainz, Germany. He was also visiting professor at the Universitè Paul Sabatier – CNRS, France, and at the DIPC. Prof. Orús has achieved several awards for his work, including a Marie Curie Incoming International Fellowship, and the Early Career Prize (2014) by the European Physical Society. He has written a large number of highly-cited scientific articles about quantum research, including foundational contributions to the fields of complex quantum systems and applied quantum computing. He is steering board member of the journal Quantum, member of the ‘Quantum for Quants' (Q4Q) commission of the Quantum World Association, partner at Entanglement Partners, member of the Scientific Committee of the Pedro Pasqual Benasque Center for Science, and president of the Specialized Group on Quantum Information at the Spanish Royal Society of Physics.

In this episode, we talk to David DiVincenzo, Director of the Institute of Theoretical Nanoelectronics at Forschungszentrum Jülich & co-founder of the Institute for Quantum Information which is a joint institute of RWTH Aachen and the Forschungszentrum. We start by listening to David's take on different aspects of the fast developments in the field of quantum computing. Then, we take a deep dive into the mid eighties and early ninties and discuss how David started working on quantum computing before Shor's algorithm and quantum error correction were discovered. Naturally then, him and his collaborators at IBM were ready to contribute to the developing field. We touch upon the DiVincenzo criteria and the Loss-DiVincenzo quantum dot proposal and get to know some of the mentors David was lucky to have had.

John Preskill is the Richard P. Feynman Professor of Physics at Caltech, a title many physicists would cherish. He is widely known in the field for his work as a theoretical physicist spearheading the field of Quantum Computing, where he is Director of Caltech's Institute for Quantum Information and Matter, but his expertise and contributions span a far broader spectrum of topics. His background is in theoretical particle physics, gravitation, and cosmology. As a graduate student, his seminal work on the cosmological implications of magnetic monopoles in Grand Unified Theories helped lead Alan Guth to develop his theory of Inflationary Cosmology, in part to resolve a cosmological conundrum John first elucidated. Since that time, John has explored condensed matter systems and the physics of black holes, made a famous bet with Stephen Hawking, and coined the term “quantum supremacy”, to describe a metric that might reveal the first time a quantum computer resolved a problem that a classical computer could not resolve in a feasible human timescale. As Director the Caltech Institute, John leads one of the most vibrant programs exploring quantum information and quantum computation, and I was happy to have the opportunity to connect again with my old friend and colleague to discuss this rapidly evolving field, about which so much is written in the popular press, and which may impact on all of our lives in the 21st century. In our discussion we tried to separate the wheat from the chaff, to discuss the future of the field, its current state, and challenges and opportunities. In addition, we discussed his own scientific career and the physics areas that have excited him, and what helped drive him to become a physicist in the first place. It was a fascinating discussion and I am sure you will be both entertained, and enlightened. As always, an ad-free video version of this podcast is also available to paid Critical Mass subscribers. Your subscriptions support the non-profit Origins Project Foundation, which produces the podcast. The audio version is available free on the Critical Mass site and on all podcast sites, and the video version will also be available on the Origins Project Youtube channel as well. Get full access to Critical Mass at lawrencekrauss.substack.com/subscribe

We continue to feature some of our experimental physicists. In this episode, we talk to Jan Klos, PhD student and associated member of ML4Q. Jan - who is almost done with his PhD thesis - performed his project in the group of Hendrik Bluhm and Lars Schreiber at the JARA Institute for Quantum Information. In the episode, Chris talks with Jan about going from a Master project in simulating quantum dot spin qubits to a PhD project fabricating them. They also discuss outreach, student supervision, thesis writing and working with engineers.

Nicole Yunger Halpern reenvisions 19th-century thermodynamics for the 21st century, using the mathematical toolkit of quantum information theory. She is a fellow of the Joint Center for Quantum Information and Computer Science (QuICS), a theoretical physicist at the National Institute of Standards and Technology (NIST), and an Adjunct Assistant Professor at the University of Maryland. She is also the author of Quantum Steampunk: The Physics of Yesterday's Tomorrow, a book that blends the topic of quantum thermodynamics with the steampunk genre of art and literature, juxtaposing a Victorian aesthetic with futuristic technologies. She tells co-hosts Lauren and Colin about the inspirations behind her work – scientific and artistic – and explains how fundamental ideas in quantum information theory are reshaping science and technology. View the episode transcript here. Conversations at the Perimeter is co-hosted by Perimeter Teaching Faculty member Lauren Hayward and journalist-turned-science communicator Colin Hunter. In each episode, they chat with a guest scientist about their research, the challenges they encounter, and the drive that keeps them searching for answers. The podcast is produced by the Perimeter Institute for Theoretical Physics, a not-for-profit, charitable organization supported by a unique public-private model, including the Governments of Ontario and Canada. Perimeter Institute acknowledges that it is situated on the traditional territory of the Anishinaabe, Haudenosaunee, and Neutral peoples. Perimeter's educational outreach initiatives, including Conversations at the Perimeter, are made possible in part by the support of donors like you. Be part of the equation: perimeterinstitute.ca/donate

Panpsychism is the belief that everything has consciousness – and that includes plants, animals, stones, stars, atoms, and even quarks. The theory goes even a step further to suggest that the universe itself is conscious – a concept called cosmopsychism. Is this even possible?http://www.troubledminds.org Support The Show! https://www.buymeacoffee.com/troubledminds https://rokfin.com/creator/troubledminds https://troubledfans.com https://patreon.com/troubledminds#aliens #conspiracy #paranormalRadio Schedule Mon-Tues-Wed-Thurs 7-9pst - https://fringe.fm/iTunes - https://apple.co/2zZ4hx6Spotify - https://spoti.fi/2UgyzqMStitcher - https://bit.ly/2UfAiMXTuneIn - https://bit.ly/2FZOErSTwitter - https://bit.ly/2CYB71UFollow Algo Rhythm -- https://bit.ly/3uq7yRYFollow Apoc -- https://bit.ly/3DRCUEjFollow Ash -- https://bit.ly/3CUTe4ZFollow Daryl -- https://bit.ly/3GHyIaNFollow James -- https://bit.ly/3kSiTEYFollow Jennifer -- https://bit.ly/3BVLyCMFollow Joseph -- https://bit.ly/3pNjbzb Matt's Book -- https://bit.ly/3x68r2d -- code for free book WY78YFollow Nightstocker -- https://bit.ly/3mFGGtxRobert's Book -- https://amzn.to/3GEsFUKFollow TamBam -- https://bit.ly/3LIQkFw--------------------------------------------------Synchronicity, Quantum Information and the Psyche - CERN Document Serverhttps://cds.cern.ch/record/1347231Conscious Universe & Collective Consciousness: Could the Universe be One Gigantic Human Brain? - Journalofcosmology.comhttps://journalofcosmology.com/consciousness160.htmlCosmopsychism: A Holistic Approach to the Metaphysics of Experience: Philosophical Papers: Vol 44, No 3https://www.tandfonline.com/doi/abs/10.1080/05568641.2015.1106709Cosmopsychism explains why the Universe is fine-tuned for life | Aeon Essayshttps://aeon.co/essays/cosmopsychism-explains-why-the-universe-is-fine-tuned-for-lifeWhat Is Cosmopsychism? | The Monist | Oxford Academichttps://academic.oup.com/monist/article-abstract/105/1/1/6510448?login=falseDraft Agenda - CERN Document Serverhttp://cds.cern.ch/record/19045Albert Einstein - Coincidence is God's way of remaining...https://www.brainyquote.com/quotes/albert_einstein_574924Synchronicity: 7 Ways to Interpret and Manifest It ⋆ LonerWolfhttps://lonerwolf.com/synchronicity/Synchronicity - Wikipediahttps://en.wikipedia.org/wiki/SynchronicitySynchronicities: A Sure Sign You're on the Right Path | Psychology Todayhttps://www.psychologytoday.com/us/blog/passion/201712/synchronicities-sure-sign-youre-the-right-pathSynchronicity: What It Is, and How to Experience It | by Nuno Alves | Energy and Consciousness | Mediumhttps://medium.com/energy-and-consciousness/synchronicity-what-it-is-and-how-to-experience-it-a5dab660d68cSynchronicity | Psychology Todayhttps://www.psychologytoday.com/us/basics/synchronicityWhy am I seeing and experiencing synchronicity? - Inner Shadow Workhttps://innershadowwork.com/why-am-i-seeing-and-experiencing-synchronicity/Synchronicity Signs From The Universe You Shouldn't Ignorehttps://thelawofattraction.com/synchronicity/Synchronicities: The Hidden Secrets in Everyday Life - Mantra Carehttps://mantracare.org/therapy/what-is/synchronicities/Ultimate Guide to Synchronicity: Meaning, Theory and Examples – Common Ego: Reclaim Your Power After Narcissistic Abusehttps://commonego.com/understanding-synchronicity/(21) What did Albert Einstein mean when he said “Coincidences are god's way of remaining anonymous”? - Quorahttps://www.quora.com/What-did-Albert-Einstein-mean-when-he-said-%E2%80%9CCoincidences-are-gods-way-of-remaining-anonymous%E2%80%9D?share=1Collapse of the Wave Functionhttps://www.informationphilosopher.com/solutions/experiments/wave-function_collapse/unknown.png (647×284)https://media.discordapp.net/attachments/748794508627673088/1026664394668646440/unknown.png

Orbit in Sonic Gravity and view the universe through the eyes of a madman--see through the Rosetta Stone of the Universe, that the Sonic Gravity Theory of Everything places our consciousness on the 2-D holographic surface of the black hole containing our universe.  And, if Stephen Hawking was correct that all black holes emit Hawking Radiation--heat, where the laws of physics require that all Hawking Radiation be quantumly entangled to all future and past Hawking Radiation, in the madness, you will see that you are the Universe's mechanism for the Law of Conservation of Quantum Information, and when you die, your soul leaves the surface of the hologram as Hawking Radiation, quantumly entangled to your ancestors and your progeny through your DNA, just like the laws of physics require.  And when your soul, energy--made immortal by the Law of Conservation of Mass-Energy, carries the information you've recorded in your memory and DNA in fractal ascension to the black hole containing our universe's black hole, then you will know that you are closer to Heaven than ever before, and your death on Earth is just the beginning, and that is a fact.

Paul Kwiat is a Quantum Physics professor at the University of Illinois at Urbana-Champaign where he focuses on quantum information. We all know there are people who are passionate about what they do but Dr. Kwiat is a "Summer Sunday Late-Night" level of passionate. We met Dr. Kwiat during LabEscape, the science-based escape room he created. During the summer, we were walking by the Physics Building (Loomis) on a Sunday night when we saw him carrying big and heavy boxes into his car. We stopped, said "Hi", and offered to help him. We talked for a bit and ten minutes later, we saw ourselves helping Dr. Kwiat get LabEscape ready for the State Fair. We already knew we wanted to have a conversation with him but this was our confirmation. What kind of professor would be working on a Sunday night by himself? That is when we realized he was sane in a way most people are crazy. In this conversation, we explore the foundations of light and move along to discover the mysteries and anomalies of photons, one of Dr. Kwiat's favorite topics to the point of owning three "photons." We start on a solid and fundamental ground to fully understand yet another mystery, quantum physics and its practical uses such as quantum computers and quantum communications. We all know Dr. Paul Kwiat is a professor but few people know that he is also a talented swing dancer (more on 1:21:44), and perhaps the secret twin of Ant-Man's Hank Pym. Physics, curiosity, and Dr. Kwiat's ability and patience to explain and have a unique conversation makes this a very special episode number 20. This is the UIUC Talkshow and this is our conversation with Dr. Paul Kwiat. EPISODE LINKS: Paul Kwiat's Website: http://research.physics.illinois.edu/QI/Photonics/ Paul Kwiat's UIUC Website: https://physics.illinois.edu/people/directory/profile/kwiat OUTLINE: 0:00 - Introduction 0:58 - What is Light? 2:00 - Photon 6:25 - Owning a "Photon" Car 8:47 - Classical Communications 15:26 - How do you create Photons? 20:40 - How Photons Die 24:00 - Why Photons Have No Mass 31:31 - How do you see/detect Photons? 42:15 - Seeing Light/Photons 46:15 - "Collapsing" the Wave Function & Entanglement 53:52 - Fundamental questions 56:00 - Quantum Communications & Quantum Cryptography 1:08:55 - Quantum Computers 1:19:00 - Advice for young people

Marco MezzalamaPresidente Fondazione LINKS, Vice Presidente Accademia delle Scienze di Torino, Professore Emerito di Sistemi di Elaborazione, Emeritus Professor of Computer Engineering, ha conseguito la laurea in ingegneria elettronica al Politecnico di Torino nel 1972, presso cui dal 1986, ha ricoperto il ruolo di Professore ordinario di Sistemi di Elaborazione. Attualmente è Professore Emerito presso il Politecnico di Torino. Dal 1993 fino al 2012 ha ricoperto la carica di Vice Rettore per i sistemi informativi e di Pro Rettore Vicario (2001-2005) del Politecnico stesso. È Vice Presidente dell'Accademmia delle Scienze di Torino. Autore di più di 150 pubblicazioni su riviste nazionali ed internazionali. È stato revisore di prestigiose riviste di diffusione internazionale e revisore di progetti di ricerca in ambito europeo. È stato ed è membro di CdA o Advisory Board di prestigiosi enti di ricerca e di società quotate. Attualmente è Presidente della Fondazione di ricerca LINKS. La sua attività di ricerca ha toccato i temi dell'architettura dei calcolatori e delle reti telematiche, della sicurezza dei sistemi informatici, ivi comprese le problematiche del malware, dell'elaborazione dei segnali e delle sue applicazioni nel campo dell'Intelligenza Artificiale, della multimedialità e della progettazione automatica di circuiti logici (CAD/CAE). App, libri e link utili Scuola Master e Formazione permanente del Politecnico Articolo Jason Palmer, "Here, There and Everywhere. Quantum Technology Is Beginning to Come into Its Own," Economist, March 9, 2017 Ibm quantum roadmap Case Hystory dwavesys Rogers Owen, Sanders James,"Enterprises Are Preparing to Quantum Leap Today ", 451 Research (S&P Global) Compuuting Workforce Laura G. Converso "How to build a quantum computing workforce", 9 Nov 2020, Quantum Computing Grows J. Watrous, "The theory of quantum information," (Cambridge University Press, Cambridge, 2018).N. Gisin, et al. "Quantum Cryptography," Rev. Mod. Phys. 74, 145 (2002)Stefano Pirandola et al., "Advances in Quantum Cryptography", Adv. Opt. Photon. 12, 1012-1236 (2020) Strategia europea Quantum McCaskey, Alexander J., et al. "Quantum chemistry as a benchmark for near-term quantum computers." npj Quantum Information 5.1 (2019): 1-8Glover, Fred, Gary Kochenberger, and Yu Du. "A tutorial on formulating and using QUBO models." arXiv preprint arXiv:1811.11538 (2018). Quantim advantage Silvério, Henrique, et al. "Pulser: An open-source package for the design of pulse sequences in programmable neutral-atom arrays." arXiv preprint arXiv:2104.15044 (2021). Europa e Quantum Luigi Grassia, "INVESTIMENTO MILIARDARIO FORMERÀ I SUPER-INGEGNERI - Cervelli cercansi - Mega- progetto Usa per vincere la corsa ai computer quantistici", Tuttoscienze n.1806, 19 settembre 2018, LaStampa p.29 Il Quantum Specialist L'esperto in Quantum Computing e Communication è un ruolo tecnico nell'ambito delle professionalità digitali che svolge un ruolo di innovazione nei processi e prodotti aziendali utilizzando il nuovo paradigma del QCC. Compito fondamentale è quello di rivedere le applicazioni informatiche e telematiche con l'introduzione della nuova tecnologia QCC al fine di migliorare e rendere sicure le attuali applicazioni principalmente nei settori finanziari e ingegneristici. Il settore di impiego è tipicamente quello delle società di servizi (banche, assicurazioni,..) e delle società industriali (telco, informatica, auto, avio, energia,..) con spiccato sviluppo di prodotti complessi e ad elevata innovazione. Interessante è la crescità di start-up legate allo sviluppo e uso di questa tecnologia.

While browsing the web, you might not realize that the security of your online transactions is guaranteed by a hard-to-crack math problem called factoring. But this security could evaporate in an instant—if a big enough quantum computer is built. Computers that store information in quantum hardware—like individual ions, atoms or photons—would make quick work of the factoring problem and threaten the safety of current protocols.To thwart the threat posed by possible quantum computers, the National Institute of Standards and Technology (NIST) has been running a kind of competition. NIST provides standard references for all sorts of things, from the meter to the kilogram to baking chocolate (NIST isn't dictating how your chocolate should be baked, just providing a reference for food labs so they can measure their ingredients accurately). But for this competition, they needed to weed through competing quantum-proof online security algorithms. More than 80 candidates faced off through several rounds of elimination. The winners of this showdown, announced by NIST on July 5, 2022, will go on to be standardized and used to create new internet protocols.In this episode of Relatively Certain, Dina Genkina chats with Lily Chen, a mathematician who heads NIST's Cryptographic Technology Group and who led the algorithm competition, to get the play-by-play on how standards get made. They are joined by Andrew Childs—a professor of computer science at the University of Maryland, a co-director of the Joint Center for Quantum Information and Computer Science and the director of the NSF Quantum Leap Challenge Institute for Robust Quantum Simulation—who provides background on the threat that quantum computing poses to our existing encryption methods.This episode of Relatively Certain was produced by Dina Genkina, Chris Cesare, and Emily Edwards. Music featured in this episode includes Picturebook by Dave Depper, Dusty Vinyl by HoliznaPATREON, Say Goodbye to Lunar Gravity by Jack Adkins, and Inspiring Ambience by Scott Holmes Music.  Relatively Certain is a production of the Joint Quantum Institute, a research partnership between the University of Maryland and the National Institute of Standards and Technology, and you can find it on iTunes, Soundcloud or Spotify.

Dr. Ivan Deutsch's background is in atomic physics and optical physics and he has been working at the University of New Mexico for over 25 years within the Physics and Astronomy department. Currently the director of the Center for Quantum Information and Control (CQuIC), which is funded by the National Science Foundation, Deutsch is responsible for one of the longest standing centers for fundamental research in quantum information and technology.

In this episode, Professor Johanna Weaver interviews Professor Michelle Simmons AO, world-leading quantum pioneer and Director of Sydney-based manufacturer Silicon Quantum Computing. The pair discuss SQC's breakthrough delivery of the world's first atomic-scale integrated circuit, the opportunities for Australia in the global race for quantum progress, how Australia can maintain and build on its advantages, and much more. Tech Mirror is recorded on Ngunnawal land. We acknowledge the traditional custodians of this land and pay our respect to elders past, present, and emerging. This episode was produced by ANU Media. Special thanks to Ben Gowdie for research and post-production support. Relevant links: Australian Academy of Science on Quantum Computing: https://www.science.org.au/curious/technology-future/quantum-computing Quantum Computing for the Determined: https://michaelnielsen.org/blog/quantum-computing-for-the-determined/ Quantum Computation and Quantum Information by Michael A. Nielsen, Isaac L. Chuang: https://www.goodreads.com/book/show/153910.Quantum_Computation_and_Quantum_Information Michelle's Piece in the Australian Financial Review: https://www.afr.com/technology/australia-s-cultural-levelling-mechanism-is-holding-back-our-science-20220701-p5ayhw SQC on LinkedIn: https://www.linkedin.com/company/silicon-quantum-computing-pty-ltd/ SQC on Twitter: @silicon_quantum Send us your questions: techpolicydesign@anu.edu.au Follow us on Twitter: @TPDesignCentre

This week we're featuring Prof. Román Orús, an Ikerbasque Research Professor at the Donostia International Physics Center in San Sebastián, Spain and Chief Scientific Officer of Multiverse Computing. Prof. Orús obtained his PhD from the University of Barcelona, followed by postdocs at the University of Queensland and the Max Planck Institute for Quantum Optics (Garching), followed by several visiting professorships and a Junior Professor position at the Johannes-Gutenberg Universität Mainz.

This week we're featuring Dr Yihui Quek, a postdoctoral researcher and Humboldt Fellow at Freie Universität Berlin. Dr Quek did her undergraduate degree at MIT, followed by postgraduate studies at Stanford, and is currently in her first postdoctoral position.For more information and a full audio transcript, see our website insidequantum.org.

This week we're featuring Dr Philippe Faist, a postdoctoral researcher at Freie Universität Berlin. Dr Faist did his undergraduate degree and PhD at ETH Zurich, followed by a postdoctoral position at Caltech, and is currently in his second postdoctoral position here in Berlin.For more information and a full audio transcript, see our website insidequantum.org.

Vlatko Vedral describes himself as a quantum information practitioner, who believes that our universe is made up of quantum bits of information. It is information, he tells Professor Jim Al-Khalili, rather than energy or matter, the traditional building blocks of classical Newtonian physics, that can help us to understand the nature of reality. Vlatko is Professor of Quantum Information Science at the University of Oxford and the Principal Investigator at the Centre for Quantum Technologies at the National University of Singapore and he talks to Jim in front of an audience at the Cheltenham Science Festival. At high school in Belgrade, in what was then Yugoslavia, young Vlatko was bowled over by the idea that you could take the micro-laws of quantum mechanics, and apply them to the complex systems of the macro world. This drive to see the big picture, was fuelled when, as an undergraduate at Imperial College, London, he saw three words – “Information is physical” – the title of a paper by the IBM physicist, Rolf Landauer. It was a light-bulb moment for Vlatko, who realised that the kind of information processing that the universe is capable of, depends on the underlying laws of physics. This revelation led to Vlatko's incarnation as a self-confessed “physics fundamentalist” who unashamedly crowns physics the Queen and other disciplines, her servants. It is physics alone, he tells Jim, which can answer the fundamental questions of the universe and discover the ultimate reality. His PhD in 1997 at Imperial College, London, applied quantum mechanics, including super-positioning and entanglement (which Einstein famously called “spooky action at a distance”), to Claude Shannon's Information theory, making Vlatko one of the pioneers in the field of quantum information. As new quantum computers come on stream, he tells Jim, quantum information practitioners, like him, will have the capacity to simulate complex systems in the macroscopic domain. Producer: Fiona Hill

Quantum Mechanics for the Working Professionalhttps://pasayten.org/qmwp©2022 The Pasayten Institute cc by-sa-4.0An Invitation to Quantum Mechanics(see links for associated references)Are you an economist, social scientist, engineer, architect, software developer or even a statistician?Have you seen vectors, matrices or calculus in College? Even if it was years ago?Today the Pasayten Institute is announcing our new, free course: Quantum Mechanics for the Working Professional. This course is your chance to learn Quantum Mechanics in an informal setting, one idea at a time.Why learn quantum mechanics?Unbelievable it as it sounds, Quantum Computing is now available on the cloud. While nascent, standard and thermal quantum computing-as-a service programs are now provided by organizations like Amazon Bracket and D-Wave Systems. This allows individuals and organizations to access quantum computing resources which may well be able to solve previously intractable or laborious problems.What kind of problems?   data encryption  optimization problems and simulating quantum mechanics itself (for use in industrial applications to say, chemistry) Of course, things are still young and Quantum Computing is not indistinguishable from magic. Yet.In February of this year, the White House Office of Science and Technology Policy and the National Science foundation released a strategic plan to train up the next generation of Americans on Quantum Information Science and Technology or QIST. In K-12 education. In College education. QIST is coming, and its not just for Science Majors anymore.Now is a great time to get familiar with the basic concepts in Quantum Mechanics.If you're curious and comfortable with learning some mathematics, this course is for you.  If you're keen on learning quantum mechanics. Welcome aboard!This course will include:  the Basics of Quantum Mechanics and Quantum Information  some applications to Computing, Chemistry, Astronomy and Thermodynamics!  Friendly, supporting ideas from algebra, statistics and calculus   Bonus, challenging sections for the more mathematically motivated listeners  and Exercises to check your understanding. Each week we'll drop a couple of episodes, and each episode covers one main idea, with exercises to try! You've found our podcast, but we'll also supplement this with video and written posts too, so you can review and learn in whatever way works best for you.Finally. Why is this free? The Pasayten Institute's Mission is to build and share physics knowledge without barriers. It's just what we do. Subscribe to this podcast to learn more! Or check out our website at Pasayten.org. 

Sommerfeld Theory Colloquium

Nicole Yunger Halpern is a theoretical physicist, NIST physicist and Adjunct Assistant Professor of Physics at the University of Maryland.  She is also currently a Fellow of the Joint Center for Quantum Information and Computer Science at the University of Maryland. Nicole reenvisions 19th-century thermodynamics for the 21st century, using the mathematical toolkit of quantum information (QI) theory. She applies QI thermodynamics as a lens through which to view the rest of science, gaining new perspectives on atomic, molecular and optical physics, condensed matter, chemistry, high-energy physics, and biophysics. She calls this research “quantum steampunk,” after the steampunk genre of art and literature that juxtaposes Victorian settings with futuristic technologies. Dr. Yunger's book, Quantum Steampunk is about how the Industrial Revolution meets the quantum-technology revolution! It is a steampunk adventure guide to how mind-blowing quantum physics is transforming our understanding of information and energy.In the book she shows how Victorian era steam engines and particle physics may seem worlds (as well as centuries) apart, yet a new branch of science, quantum thermodynamics, reenvisions the scientific underpinnings of the Industrial Revolution through the lens of today's roaring quantum information revolution. Classical thermodynamics, understood as the study of engines, energy, and efficiency, needs reimagining to take advantage of quantum mechanics, the basic framework that explores the nature of reality by peering at minute matters, down to the momentum of a single particle. Readers follow the adventures of a rag-tag steampunk crew on trains, dirigibles, and automobiles, as they explore questions such as, "Can quantum physics revolutionize engines?" and "What deeper secrets can quantum information reveal about the trajectory of time?" Yunger Halpern also describes her own adventures in the quantum universe and provides an insider's look at the work of the scientists obsessed with its technological promise. https://www.press.jhu.edu/books/title/12750/quantum-steampunk https://quantumsteampunk.umiacs.io/ https://twitter.com/nicoleyh11 https://quics.umd.edu/ Topis discussed include: What is Entropy? Where does physics end and chemistry begin? What is Maxwell's Demon? What does it mean to destroy information? What happens if I burn this book?! What is a Boltzman Brain? What is a quantum computer? Can quantum computing help make the blockchain more efficient? Why go into thermodynamics as a career now? The unsung virtues of thermometry. Please Visit our Sponsors: LinkedIn: LinkedIn.com/impossible to post a job for FREE Athletic Greens, makers of AG1 which I take every day. Get an exclusive offer when you visit https://athleticgreens.com/impossible AG1 is made from the highest quality ingredients, in accordance with the strictest standards and obsessively improved based on the latest science. A production of http://imagination.ucsd.edu/ Support the podcast: https://www.patreon.com/drbriankeating Search for The Jordan Harbinger Show on Apple Podcasts, Spotify, wherever you listen to podcasts, or go to jordanharbinger.com/subscribe Produced by Stuart Volkow (P.G.A) and Brian Keating Edited by Stuart Volkow Music by:  Yeti Tears Miguel Tully - www.facebook.com/yetitears/ Theo Ryan - http://the-omusic.com/

Check out our membership rewards! Visit us at Patreon.com/Whattheif --- Our guest this week is the time traveling, super imaginative theoretical physicist Nicole Yunger Halpern with an explosive, super mind-bending, steam train chugging, atom smashing idea ripped straight from her new book: QUANTUM STEAMPUNK. Nicole asks, What the IF... The Victorians had become proficient in quantum science and used it in their technology? Get your cosplay game in full gear, throw on your steampipe top hat and your aviator goggles and let's find out what happens when steam and PUNK collide... for SCIENCE! Follow Nicole on Twitter @nicoleyh11 And check out her awesome book at https://quantumsteampunk.umiacs.io/book/ Nicole Yunger Halpern is a Fellow of the Joint Center for Quantum Information and Computer Science (QuICS), a theoretical physicist at the National Institute of Standards and Technology (NIST), and an Adjunct Assistant Professor at the University of Maryland. Nicole earned her Bachelors at Dartmouth College, where she graduated as a co-valedictorian of her class. As a Perimeter Scholars International (PSI) student, she completed her master's at the Perimeter Institute for Theoretical Physics. Nicole earned her physics PhD under John Preskill's auspices at the Caltech. Her PhD dissertation won the international Ilya Prigogine Prize for a thermodynamics PhD thesis. As an ITAMP Postdoctoral Fellow at Harvard, she received the International Quantum Technology Emerging Researcher Award. Nicole is the author of the book [Quantum Steampunk: The Physics of Yesterday's Tomorrow](https://quantumsteampunk.umiacs.io/book/). She has also written over 100 monthly articles for [Quantum Frontiers](https://quantumfrontiers.com/author/nyungerhalpern/), the blog of Caltech's Institute for Quantum Information and Matter. --- Got an IF of your own? Want to have us consider your idea for a show topic? Send YOUR IF to us! Email us at feedback@whattheif.com and let us know what's in your imagination. No idea is too small, or too big! Don't miss an episode! Subscribe at WhatTheIF.com Keep On IFFin', Philip, Matt & Gaby

During this time of lockdown, the centre for quantum software and information (QSI) at the University of Technology Sydney has launched an online seminar series. With talks once or twice a week from leading researchers in the field, meQuanics is supporting this series by mirroring the audio from each talk. I would encourage if you listen to this episode, to visit and subscribe to the UTS:QSI YouTube page to see each of these talks with the associated slides to help it make more sense. https://youtu.be/Dg6Q_F9uI8s Silicon spin qubits gain traction for large-scale quantum computation and simulation. TITLE: A Scalable “Spins-Inside” Quantum Processor and Simulator SPEAKER: Prof Lieven Vandersypen AFFILIATION: QuTech, Kavli Institute of Nanoscience, Dept of Quantum Nanoscience, Delft University of Technology, Netherlands HOSTED BY: Dr JP (Juan Pablo) Dehollain, UTS Centre for Quantum Software and Information ABSTRACT: Excellent control of over physical 50 qubits has been achieved, but can we also realize 50 fault-tolerant qubits? Here quantum bits encoded in the spin state of individual electrons in silicon quantum dot arrays have emerged as a highly promising avenue. In this talk, I will present our vision of a large-scale spin-based quantum processor, and our ongoing work to realize this vision. I will also show how the same platform offers a powerful platform for analog quantum simulation of Fermi-Hubbard physics and quantum magnetism. RELATED ARTICLES: Physics Today 72(8), 38 (2019) npj Quantum Information 3, 34 (2017) Nature 555, 633 (2018) Science 359, 1123 (2018) Phys. Rev. X 9, 021011 (2019) Nature 579, 528 (2020) Nature 580, 355 (2020) OTHER LINKS: Vandersypen Lab: qutech.nl/vandersypen-lab/ Delft University of Technology: https://www.tudelft.nl/

My guest today is Tom Wong, physicist, quantum information scientist and author of the new book: “Introduction to classical and quantum computing”. Tom and I talk about teaching quantum computing to high school and undergraduate college students, about his cutting-edge research in quantum algorithms, and much more.

Two federal science agencies have together launched a plan to bolster U.S. strength in a field known as quantum information science and technology. The Office of Science and Technology Policy, part of the White House crew, and the National Science Foundation parted with a group called the National K-12 Education Partnership to, as they put it, explore training and education opportunities in quantum. Here with what's going on and why it's important, the National Science Foundation director, Dr. Sethuraman Panchanathan.

During this time of lockdown, the centre for quantum software and information (QSI) at the University of Technology Sydney has launched an online seminar series. With talks once or twice a week from leading researchers in the field, meQuanics is supporting this series by mirroring the audio from each talk. I would encourage if you listen to this episode, to visit and subscribe to the UTS:QSI YouTube page to see each of these talks with the associated slides to help it make more sense. https://youtu.be/sUANYeTrmHQ A scalable tomography for fermonic systems. TITLE: A Scalable Fermion Measurement SPEAKER: Dr Chris Jackson AFFILIATION: Center for Quantum Information and Control (CQulC), University of New Mexico, Albuquerque, NM | UTS Centre for Quantum Software and Information, Sydney, Australia HOSTED BY: A/Prof. Chris Ferrie, UTS Centre for Quantum Software and Information ABSTRACT: Fermion systems have a Hilbert space dimension that scales exponentially in the number of modes. Standard tomography thus says that to completely measure an unknown state would require the measurement of exponentially many observables. However, if the parity of a fermion state is known, then there exists a nonadaptive, tomographically complete continuous measurement which only requires the isotropic measurement of quadratically many observables. The effects of the corresponding POVM are the well known superconducting Bardeen-Cooper-Schrieffer (BCS) coherent states. The BCS coherent states define a manifold which can be used as a phase space to represent fermion quantum information. In this talk, I will introduce the BCS-coherent state POVM, explain the isotropic measurement which implements it, and discuss the geometry of the corresponding phase space. OTHER LINKS: Centre for Quantum Information & Control: https://cquic.unm.edu/

En co-production avec Fanny Bouton et Olivier Ezratty, Decode Media vous propose Decode Quantum, une série pour découvrir la révolution quantique au travers d'échange avec les acteurs clés de la filière quantique dans le monde.

As the title suggests: this is about Quantum Information. It is “Quantum Information Theory” to be more precise. Now physics is sometimes regarded as strange by people who know little about it. And even for people who know a little more about it - well they might regard quantum physics as strange. And even those who know a little about quantum physics - they can regard quantum information theory as rather esoteric. This episode, following Chapter 4 of Chiara Marletto's excellent book, begins from the ground up to explore how quantum systems can do more with information than classical systems (which is what all present day computers use). There is an excellent talk by David Wallace about the Mach Zehnder interferometer that I mention. It's here: https://www.youtube.com/watch?v=GRJT9... Coupled with my own remarks about it here: https://www.youtube.com/watch?v=Cu4HH... Anyone should come away with a good understanding of what is actually going on.

How has the quantum revolution allowed researchers a new understanding of light? By examining the properties and behavior of light, discoveries like gravity waves can be found. Press play to learn: How quantum optics function Why pairs of photons are quantum correlated What the signal to noise ratio signifies Ryan T. Glasser, Ph.D., an Associate Professor at Tulane EDU, School of Science & Engineering, stops by to share his work with quantum optics and discusses what this work may hold for the future. A higher-quality image can be gained by quantizing light in a specific way, allowing a more extended range for optics to be used effectively. By quantum correlating the pairs of photons, accurate measurements, even beyond lasers, can be created. By eliminating "noise" in calculations using quantum optics, the data collected from the experiment can be much more dependable. This is in part the quality of quantum optics that allowed a team of researchers to earn a Nobel prize for discovering gravity waves. To learn more, visit https://glasser.tulane.edu.

Juan & Terence discuss quantum information and what it is. Entropy and quantum teleportation are a couple of the heavy topics discussed.

Depending on who you listen to, quantum computers are either the biggest technological change coming down the road or just another overhyped bubble. Today we're talking with a good person to listen to: John Preskill, one of the leaders in modern quantum information science. We talk about what a quantum computer is and promising technologies for actually building them. John emphasizes that quantum computers are tailor-made for simulating the behavior of quantum systems like molecules and materials; whether they will lead to breakthroughs in cryptography or optimization problems is less clear. Then we relate the idea of quantum information back to gravity and the emergence of spacetime. (If you want to build and run your own quantum algorithm, try the IBM Quantum Experience.)Support Mindscape on Patreon.John Preskill received his Ph.D. in physics from Harvard University. He is currently the Richard P. Feynman Professor of Theoretical Physics at Caltech and the Davis Leadership Chair at the Institute for Quantum Information and Matter, as well as an Amazon Scholar at Amazon Web Services. Before moving into quantum information, he was a leading researcher in quantum field theory and black holes. He is the winner of multiple bets with Stephen Hawking.Caltech Theory Group web pageCaltech IQIM web pageGoogle Scholar publicationsBlog posts at Quantum FrontiersWikipediaTwitterPrivacy Policy and California Privacy Notice.

ML4Q&A continues featuring theoretical physicists in ML4Q. In the second episode, Chris Dickel is talking to David Gross, professor in Cologne and vice spokesperson of the ML4Q cluster. David's research interests lie on the application of rigorous mathematical methods to problems in quantum information theory and many-body theory. We talk about his career path, advising student projects in theoretical physics, teaching quantum mechanics and the Google event he was probably never invited to. Visit https://ml4q.de/ml4qa/ for more podcast episodes Visit https://ml4q.de/stories/ for more stories from our researchers at ML4Q Follow us on twitter: https://twitter.com/ML4Q_cluster Visit David's homepage: http://www.thp.uni-koeln.de/gross/david_gross.html Contact David: david.gross(at)thp.uni-koeln.de Host: Christian Dickel Music: Technology by Keys of Moon | https://soundcloud.com/keysofmoon Music promoted by https://www.free-stock-music.com Attribution 4.0 International (CC BY 4.0) https://creativecommons.org/licenses/by/4.0/ Discovery by Scott Buckley | https://soundcloud.com/scottbuckley Music promoted by https://www.free-stock-music.com Attribution 4.0 International (CC BY 4.0) https://creativecommons.org/licenses/by/4.0/ Title: Lunar Levitation Artist: Aakash Gandhi

ML4Q&A continues featuring theoretical physicists in ML4Q. In the second episode, Chris Dickel is talking to David Gross, professor in Cologne and vice spokesperson of the ML4Q cluster. David's research interests lie on the application of rigorous mathematical methods to problems in quantum information theory and many-body theory. We talk about his career path, advising student projects in theoretical physics, teaching quantum mechanics and the Google event he was probably never invited to. Visit https://ml4q.de/ml4qa/ for more podcast episodes Visit https://ml4q.de/stories/ for more stories from our researchers at ML4Q Follow us on twitter: https://twitter.com/ML4Q_cluster Visit David's homepage: http://www.thp.uni-koeln.de/gross/david_gross.html Contact David: david.gross(at)thp.uni-koeln.de Host: Christian Dickel Music: Technology by Keys of Moon | https://soundcloud.com/keysofmoon Music promoted by https://www.free-stock-music.com Attribution 4.0 International (CC BY 4.0) https://creativecommons.org/licenses/by/4.0/ Discovery by Scott Buckley | https://soundcloud.com/scottbuckley Music promoted by https://www.free-stock-music.com Attribution 4.0 International (CC BY 4.0) https://creativecommons.org/licenses/by/4.0/ Title: Lunar Levitation Artist: Aakash Gandhi

This bonus episode is the highlights of Jack Hidary's talk on quantum information sciences at the University of British Columbia. Jack Hidary is the author of “Quantum Computing: an Applied Approach” and director of AI and Quantum at Sandbox@Alphabet.

Online Workshop on Quantum Gravity, Holography and Quantum Information

Online Workshop on Quantum Gravity, Holography and Quantum Information

Timestamps(1:55) Alba shared her background growing up interested in studying Physics and pivoting into quantum mechanics.(3:33) Alba went over her Bachelor’s in Fundamental Physics at The University of Barcelona.(4:54) Alba continued her education with an M.S. degree that specialized in Particle Physics and Gravitation.(6:40) Alba started her Ph.D. in Physics in 2015 and discussed her first publication, “Operational Approach to Bell Inequalities: Application to Qutrits.”(9:48) Alba also spent time as a visiting scholar at the University of Oxford and the University of Madrid during her Ph.D.(11:25) Alba explained her second paper to understand the connection between maximal entanglement and the fundamental symmetries of high-energy physics.(13:27) Alba dissected her next work titled “Multipartite Entanglement in Spin Chains and The Hyperdeterminant.”(18:56) Alba shared the origin of Quantic, a quantum computation joint effort between the University of Barcelona and the Barcelona Supercomputing Center.(22:27) Alba unpacked her article “Quantum Computation: Playing The Quantum Symphony,” making a metaphor between quantum computing and musical symphony.(27:47) Alba discussed the motivation and contribution of her paper “Exact Ising Model Simulation On A Quantum Computer.”(32:51) Alba recalled creating a tutorial that ended up winning the Teach Me QISKit challenge from IBM back in 2018.(35:01) Alba elaborated on her paper “Quantum Circuits For the Maximally Entangled States,” which designs a series of quantum circuits that generate absolute maximally entangled states to benchmark a quantum computer.(38:54) Alba dissected key ideas in her paper “Data Re-Uploading For a Universal Quantum Classifier.”(43:51) Alba explained how she leveled up her knowledge of classical neural networks.(47:40) Alba shared her experience as a Postdoctoral Fellow at The Matter Lab at the University of Toronto — working on quantum machine learning and variational quantum algorithms (checked out the Quantum Research Seminars Toronto that she has been organizing).(52:18) Alba explained her work on the Meta-Variational Quantum Eigensolver algorithm capable of learning the ground state energy profile of a parametrized Hamiltonian.(59:23) Alba went over Tequila, a development package for quantum algorithms in Python that her group created.(01:04:49) Alba presented a quantum calling for new algorithms, applications, architectures, quantum-classical interface, and more (as presented here).(01:08:59) Alba has been active in education and public outreach activities about encouraging scientific vocations for young minds, especially in Catalonia.(01:12:07) Closing segment.Her Contact InfoWebsiteTwitterLinkedInGoogle ScholarGitHubHer Recommended ResourcesEwin Tang (Ph.D. Student in Theoretical Computer Science at the University of Washington)Alán Aspuru-Guzik (Professor of Chemistry and Computer Science at the University of Toronto, Alba’s current supervisor)José Ignacio Latorre (Professor of Theoretical Physics at the University of Barcelona, Alba’s former supervisor)Quantum Computation and Quantum Information (by Michael Nielsen and Isaac Chuang)Quantum Field Theory and The Standard Model (by Matthew Schwarz)The Structure of Scientific Revolutions (by Thomas Kuhn)Against Method (by Paul Feyerabend)Quantum Computing Since Democritus (by Scott Aaronson)

Timestamps(1:55) Alba shared her background growing up interested in studying Physics and pivoting into quantum mechanics.(3:33) Alba went over her Bachelor’s in Fundamental Physics at The University of Barcelona.(4:54) Alba continued her education with an M.S. degree that specialized in Particle Physics and Gravitation.(6:40) Alba started her Ph.D. in Physics in 2015 and discussed her first publication, “Operational Approach to Bell Inequalities: Application to Qutrits.”(9:48) Alba also spent time as a visiting scholar at the University of Oxford and the University of Madrid during her Ph.D.(11:25) Alba explained her second paper to understand the connection between maximal entanglement and the fundamental symmetries of high-energy physics.(13:27) Alba dissected her next work titled “Multipartite Entanglement in Spin Chains and The Hyperdeterminant.”(18:56) Alba shared the origin of Quantic, a quantum computation joint effort between the University of Barcelona and the Barcelona Supercomputing Center.(22:27) Alba unpacked her article “Quantum Computation: Playing The Quantum Symphony,” making a metaphor between quantum computing and musical symphony.(27:47) Alba discussed the motivation and contribution of her paper “Exact Ising Model Simulation On A Quantum Computer.”(32:51) Alba recalled creating a tutorial that ended up winning the Teach Me QISKit challenge from IBM back in 2018.(35:01) Alba elaborated on her paper “Quantum Circuits For the Maximally Entangled States,” which designs a series of quantum circuits that generate absolute maximally entangled states to benchmark a quantum computer.(38:54) Alba dissected key ideas in her paper “Data Re-Uploading For a Universal Quantum Classifier.”(43:51) Alba explained how she leveled up her knowledge of classical neural networks.(47:40) Alba shared her experience as a Postdoctoral Fellow at The Matter Lab at the University of Toronto — working on quantum machine learning and variational quantum algorithms (checked out the Quantum Research Seminars Toronto that she has been organizing).(52:18) Alba explained her work on the Meta-Variational Quantum Eigensolver algorithm capable of learning the ground state energy profile of a parametrized Hamiltonian.(59:23) Alba went over Tequila, a development package for quantum algorithms in Python that her group created.(01:04:49) Alba presented a quantum calling for new algorithms, applications, architectures, quantum-classical interface, and more (as presented here).(01:08:59) Alba has been active in education and public outreach activities about encouraging scientific vocations for young minds, especially in Catalonia.(01:12:07) Closing segment.Her Contact InfoWebsiteTwitterLinkedInGoogle ScholarGitHubHer Recommended ResourcesEwin Tang (Ph.D. Student in Theoretical Computer Science at the University of Washington)Alán Aspuru-Guzik (Professor of Chemistry and Computer Science at the University of Toronto, Alba’s current supervisor)José Ignacio Latorre (Professor of Theoretical Physics at the University of Barcelona, Alba’s former supervisor)Quantum Computation and Quantum Information (by Michael Nielsen and Isaac Chuang)Quantum Field Theory and The Standard Model (by Matthew Schwarz)The Structure of Scientific Revolutions (by Thomas Kuhn)Against Method (by Paul Feyerabend)Quantum Computing Since Democritus (by Scott Aaronson)