Podcasts about phonons

Podczas pandemii na Uniwersytecie Nowojorskim Langone Health odnotowano 30% wzrost liczby wiadomości w elektronicznej dokumentacji zdrowotnej (EHR).https://medicalxpress.com/news/2024-07-ai-tool-successfully-patient-electronic.html Naukowcy z MIT opracowali platformę uczenia maszynowego, która pozwala szybciej i dokładniej przewidywać relacje dyspersji fononów.https://news.mit.edu/2024/ai-method-radically-speeds-predictions-materials-thermal-properties-0716 Badanie Gartnera pokazuje, że 64% klientów nie lubi sztucznej inteligencji na stanowiskach związanych z obsługą klienta.https://futurism.com/the-byte/people-hate-ai-customer-service Nowy telefon Samsung Fold 6 wyposażony jest w narzędzie o nazwie „szkic do obrazu”.https://www.theverge.com/2024/7/17/24199005/samsung-galaxy-ai-z-fold-6-sketch-to-image Odwiedź www.integratedaisolutions.com

NYU Langone Health verzeichnete während der Pandemie einen Anstieg der Nachrichten in elektronischen Gesundheitsakten (EHR) um 30 %.https://medicalxpress.com/news/2024-07-ai-tool-successfully-patient-electronic.html Forscher vom MIT haben ein maschinelles Lernsystem entwickelt, das die Dispersionsrelationen von Phononen schneller und genauer vorhersagen kann.https://news.mit.edu/2024/ai-method-radically-speeds-predictions-materials-thermal-properties-0716 Eine Gartner-Umfrage zeigt, dass 64 % der Kunden KI im Kundenservice ablehnen.https://futurism.com/the-byte/people-hate-ai-customer-service Samsungs neues Fold 6-Telefon verfügt über ein Tool namens „Sketch to Image“.https://www.theverge.com/2024/7/17/24199005/samsung-galaxy-ai-z-fold-6-sketch-to-image Visit www.integratedaisolutions.com

NYU Langone Health saw a 30% increase in electronic health record (EHR) messages during the pandemic.https://medicalxpress.com/news/2024-07-ai-tool-successfully-patient-electronic.html Researchers from MIT have developed a machine-learning framework that can predict phonon dispersion relations faster and more accurately.https://news.mit.edu/2024/ai-method-radically-speeds-predictions-materials-thermal-properties-0716 A Gartner survey reveals that 64% of customers dislike AI in customer service roles.https://futurism.com/the-byte/people-hate-ai-customer-service Samsung's new Fold 6 phone features a tool called "sketch to image".https://www.theverge.com/2024/7/17/24199005/samsung-galaxy-ai-z-fold-6-sketch-to-image Visit www.integratedaisolutions.com

Dr. Inna Vishik is a professor of Physics at UC Davis, where her lab studies the spectroscopic properties of exotic condensed matter. We dig down into how she sees the atomic landscapes she studies, the significance of mathematical descriptions that show up all over the place, harmonic oscillators at the scale of an electron, and why physics is perfectly happy to deal in abstractions, even when better models might be available. (00:00:00) Go! (00:00:18) Who is Inna Vishik? (00:02:33) Condensed Matter Physics (00:10:07) Atomic shape changes in conduction (00:14:53) Wavelength & Momentum in Electronics (00:22:13) Simplifications as Good Enough (00:29:16) Material Models of the Atom (00:33:50) Atom as Harmonic Oscilator (00:43:30) A Sufficient Level of Abstraction (00:44:42) Experimental Approach (01:00:03) Fundamental Science & Applications (01:07:15) What Makes an Interesting Material? (01:13:04) Space for Play in the Lab (01:16:30) Experimental Techniques (01:23:49) Phonons & Electronics (01:34:25) Intensive v. Extensive Physical Properties (01:36:46) LK-99 (01:48:51) Electric Astronomy (01:52:06) Closing Thoughts Support the scientific revolution by joining our Patreon: https://bit.ly/3lcAasB Tell us what you think in the comments or on our Discord: https://discord.gg/MJzKT8CQub #physics #quantum #quantumphysics Check our short-films channel, @DemystifySci: https://www.youtube.com/c/DemystifyingScience AND our material science investigations of atomics, @MaterialAtomics https://www.youtube.com/@MaterialAtomics Join our mailing list https://bit.ly/3v3kz2S PODCAST INFO: Anastasia completed her PhD studying bioelectricity at Columbia University. When not talking to brilliant people or making movies, she spends her time painting, reading, and guiding backcountry excursions. Shilo also did his PhD at Columbia studying the elastic properties of molecular water. When he's not in the film studio, he's exploring sound in music. They are both freelance professors at various universities. - Blog: http://DemystifySci.com/blog - RSS: https://anchor.fm/s/2be66934/podcast/rss - Donate: https://bit.ly/3wkPqaD - Swag: https://bit.ly/2PXdC2y SOCIAL: - Discord: https://discord.gg/MJzKT8CQub - Facebook: https://www.facebook.com/groups/DemystifySci - Instagram: https://www.instagram.com/DemystifySci/ - Twitter: https://twitter.com/DemystifySci MUSIC: -Shilo Delay: https://g.co/kgs/oty671

Watch the video of this episode here: https://youtu.be/AJJGv-5Rk4I #CondensedMatter #superconductors #quantummechanics The tagline for our podcast by Arthur C. Clarke is “Any sufficiently advanced technology is indistinguishable from magic”. Theoretical physicist Felix Flicker's imaginative new book The Magick of Physics provides ample service to that notion. In Flicker's book the magic is in “condensed matter physics”, the quotidian solids, liquids, and gasses that surround us—and the more exotic matter— which form the foundations for our electronic lives, and may hold the keys to a transformed future, from quantum computing to real-life invisibility cloaks. Flicker finds magic in real physics like creating new particles which never existed before, and making crystals that shoot out light that can cut through metal. Using metaphors of wizards, infinite libraries, staffs and wands, the book has a compelling narrative that circumvents the need for equations and charts, yet conveys real, practical knowledge. Felix Flicker is a lecturer at Cardiff University in the School of Physics and Astronomy. He holds an MPhys in physics from St Catherine's College, Oxford, and received his PhD in theoretical condensed matter physics from the University of Bristol in 2015. He has published in both Nature and Science. Felix has trained in Kung Fu for twenty years and has been an instructor for fifteen years. He is the former British Champion of Shuai Jiao (Chinese wrestling), and a student of Shodo (Japanese calligraphy) and sailing. www.felixflicker.com Buy The Magick of Physics: Uncovering the Fantastical Phenomena in Everyday Life https://a.co/d/2JtuhM1 00:00:00 Intro 00:02:30 Judging the book by its cover 00:07:10 What is the philosopher's stone? 00:09:20 The announcement by Ranga Diass of the development of a room temperature superconductor at the March 2023 meeting of the American Physical Society of 10,000 scientists. 00:15:45 What qualifies as a legit superconducting material? Why is ultra-high pressure an issue? 00:19:00 What is the significance of condensed matter physics and why should a scientist consider pursuing it? The elevator pitch. 00:25:50 The glory of room temperature superconductors 00:28:25 Felix's journey through martial arts, calligraphy and tea. 00:33:45 Tea and phase transitions 00:41:54 How does physics go from theory to practice? 00:49:00 Why are knots important in condensed matter physics? Topological quantum computation! 00:56:00 Existential questions - What are your choices for the most magical or impressive scientific fact(s)? Phonons! Subscribe to the Jordan Harbinger Show for amazing content from Apple's best podcast of 2018! https://www.jordanharbinger.com/podcasts  Please leave a rating and review: On Apple devices, click here, https://apple.co/39UaHlB On Spotify it's here: https://spoti.fi/3vpfXok On Audible it's here https://tinyurl.com/wtpvej9v  Find other ways to rate here: https://briankeating.com/podcast Support the podcast on Patreon https://www.patreon.com/drbriankeating  or become a Member on YouTube- https://www.youtube.com/channel/UCmXH_moPhfkqCk6S3b9RWuw/join To advertise with us, contact advertising@airwavemedia.com Learn more about your ad choices. Visit megaphone.fm/adchoices

In this episode, Lexman discusses phonons with Roger Reaves. They discuss how phonons are responsible for the transmission of energy in solids, and how they play a role in materials' properties.

Doctor Karl talks with the Chief Scientist of Australia. Superconductors, Sunscreen, LEDs, Phonons, Vaccines  - is anything off limits? In an age where science is everywhere how does a Chief Scientist operate ?     https://www.chiefscientist.gov.au/ Twitter @ScienceChiefAu drkarl.com

The mainstay from the French underground music scene, Nems B is not a stranger here at Delayed. He’s one of the masterminds behind a very well-curated podcast series, Phonons which we love listening to. With releases on labels like Oslated and On Board Music, Nems-B has been building a reputation as a talented producer who should be on everyone’s radar. Behind the decks, Nems-B puts the accent on storytelling and usually operates within deeper shades of House and Techno. In this hour-long mix, Nems-B brings back all the feels of those late after-hours we all long for. The mix is super smooth with a brilliant track selection. We’re looking forward to hearing more from Nems-B in the future. Nems-B on SoundCloud: https://soundcloud.com/nemsb Nems-B on Instagram: https://www.instagram.com/nemsbmusic/ www.itsdelayed.com www.instagram.com/_itsdelayed_ www.facebook.com/itsdelayed

Advances in light sources and time resolved spectroscopy have made it possible to excite specific atomic vibrations in solids and to observe the resulting changes in electronic properties. I argue that in narrow-band systems the dominant symmetry-allowed coupling between electron density and dipole active modes implies an electron density-dependent squeezing of the phonon state which provides an attractive contribution to the electron-electron interaction, independent of the sign of the bare electron-phonon coupling and with a magnitude proportional to the degree of laser-induced phonon excitation. Reasonable excitation amplitudes lead to non-negligible attractive interactions that may cause significant transient changes in electronic properties including superconductivity. The mechanism is generically applicable to a wide range of systems, offering a promising route to manipulating and controlling electronic phase behavior in novel materials.

For our latest mix we turn to France's Nems-B (@nemsb), who we had the pleasure of meeting during last year's Parallel Festival (@paral-lel-festival). As co-founder of the respected Phonons (@phonons-net) series, Nahim's ear for contemporary techno is well established, and he makes this clear in the airy, dynamic mix he has recorded for us. Upon pressing play we were immediately taken back to Spain's transcendent mountain ranges, and we hope your listening experience is equally profound.

In this lecture, Prof. Kardar introduces the principles of collective behavior from particles to fields, including Phonons and Elasticity.

  The 69th of a series of weekly radio programmes created by :zoviet*france: First broadcast 2 November 2013. Thankst to the artists and sound recordists included here for their fine work.   track list   01 Bălănescu Quartet - Maria T-Aria   02 Michael Jon Fink - Echo   03 [unknown sound recordist / BBC] - Bus – Interior – Constant Run, Lower Deck   04 Monolake - Schiphol Announcement System Error   05 [unknown sound recordist – bird song] - luwadd1   06 Ben Ponton - Less Than More [beta 2.0]   07 The Hafler Trio - Tourist with Pendulum   08 [unknown sound recordist] - Bog Bush-cricket   09 Venetian Snares - Yes Love, my Soul Is Black   10 Karlheinz Stockhausen - Kontakte – Struktur XIII A   11 Jack Goldstein - 5-3. (No Title)   12 Hapsburg Braganza - Silhouette   13 Gescom - Tomo   14 [unknown sound recordist / BBC] - B.T. – Lines and Tones – Pushbutton Pay Phone: Pips Heard When Operator Dialed, or Telephone Box Called from Outside   15 Volta Laboratory Associates - 287700_part3   16 [unknown sound recordist – bird song] - casp1   17 Lula Pena - Rosa   18 Thomas Köner - Serac   19 Peer Saer - Vanished Seashore      

Rothschild Visiting Professor Tom Lubensky (University of Pennsylvania) Monday 24 June 2013, 16:00-17:00

(June 19th, 2012) David Reis talks about Phonon spectroscopy and its utilization of X-rays. He explains what Phonons are and discusses how they can be visualized after interacting with X-rays.

Deriving Planck's law of blackbody radiation. How to use it to tell the temperature of a star. Discussions about stars -- absorption lines and redshifts, and how to get the temperature correct anyway. Student demo of astronomy course software -- very cool. Counting photons is like counting phonons. (Phonons are quantized vibrational modes in solids.) Visual aid: model of a squishy crystal to demonstrate phonons. Debye law of heat capacity due to phonons in solids. Lecture Audio