Podcast appearances and mentions of ivan schuller

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

A lively and wide-ranging visit with Albert Fert, life-long rugby player and recipient of the Nobel Prize in Physics for his discovery of an effect that revolutionized electronics forever. Series: "Not Too Serious Labs" [Science] [Show ID: 25570]

A lively and wide-ranging visit with Albert Fert, life-long rugby player and recipient of the Nobel Prize in Physics for his discovery of an effect that revolutionized electronics forever. Series: "Not Too Serious Labs" [Science] [Show ID: 25570]

A lively and wide-ranging visit with Albert Fert, life-long rugby player and recipient of the Nobel Prize in Physics for his discovery of an effect that revolutionized electronics forever. Series: "Not Too Serious Labs" [Science] [Show ID: 25570]

A lively and wide-ranging visit with Albert Fert, life-long rugby player and recipient of the Nobel Prize in Physics for his discovery of an effect that revolutionized electronics forever. Series: "Not Too Serious Labs" [Science] [Show ID: 25570]