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The Quantum-Mechanical Model of an Atom02:45

The Quantum-Mechanical Model of an Atom

Shortly after de Broglie published his ideas that the electron in a hydrogen atom could be better thought of as being a circular standing wave instead of a particle moving in quantized circular orbits, Erwin Schrödinger extended de Broglie’s work by deriving what is now known as the Schrödinger equation. When Schrödinger applied his equation to hydrogen-like atoms, he was able to reproduce Bohr’s expression for the energy and, thus, the Rydberg formula governing hydrogen spectra. Schrödinger...
The Bohr Model02:18

The Bohr Model

Following the work of Ernest Rutherford and his colleagues in the early twentieth century, the picture of atoms consisting of tiny dense nuclei surrounded by lighter and even tinier electrons continually moving about the nucleus was well established. This picture was called the planetary model since it pictured the atom as a miniature “solar system” with the electrons orbiting the nucleus like planets orbiting the sun. The simplest atom is hydrogen, consisting of a single proton as the nucleus...
Quantum Numbers02:43

Quantum Numbers

It is said that the energy of an electron in an atom is quantized; that is, it can be equal only to certain specific values and can jump from one energy level to another but not transition smoothly or stay between these levels.
Emission Spectra02:39

Emission Spectra

When solids, liquids, or condensed gases are heated sufficiently, they radiate some of the excess energy as light. Photons produced in this manner have a range of energies, and thereby produce a continuous spectrum in which an unbroken series of wavelengths is present.
Electron Orbital Model01:18

Electron Orbital Model

Orbitals are the areas outside of the atomic nucleus where electrons are most likely to reside. They are characterized by different energy levels, shapes, and three-dimensional orientations. The location of electrons is described most generally by a shell or principal energy level, then by a subshell within each shell, and finally, by individual orbitals found within the subshells.
The first shell is closest to the nucleus, and it has only one subshell with a single spherical orbital called the...
Magnetic Moment of an Electron01:23

Magnetic Moment of an Electron

Electrons revolving around a nucleus are analogous to a circular current carrying loop. This current produces a magnetic dipole moment proportional to the electron's orbital angular momentum. Since the orbital angular momentum is quantized in terms of the reduced Planck's constant, the dipole moment is quantized in the Bohr Magneton. The value of the Bohr magneton is 9.27 x 10-24 Am2. Electrons also have an intrinsic spin angular momentum, and the associated spin magnetic moment is...

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Related Experiment Video

Updated: May 18, 2026

Silicon Metal-oxide-semiconductor Quantum Dots for Single-electron Pumping
14:58

Silicon Metal-oxide-semiconductor Quantum Dots for Single-electron Pumping

Published on: June 3, 2015

Quantum electron star.

Andrea Allais1, John McGreevy, S Josephine Suh

  • 1Department of Physics, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA.

Physical Review Letters
|September 26, 2012
PubMed
Summary
This summary is machine-generated.

Researchers explored a holographic model of matter formed by interacting Fermi liquids and conformal field theories (CFTs). They found that Landau quasiparticles persist even when coupled to a CFT, a key finding for condensed matter physics and quantum field theory.

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Last Updated: May 18, 2026

Silicon Metal-oxide-semiconductor Quantum Dots for Single-electron Pumping
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Area of Science:

  • Condensed Matter Physics
  • Quantum Field Theory
  • Holographic Duality

Background:

  • Fermi liquids are fundamental states of interacting fermions.
  • Conformal field theories (CFTs) describe systems with scale invariance.
  • Holographic duality relates gravitational theories to quantum field theories.

Purpose of the Study:

  • To construct and analyze a holographic description of matter resulting from coupling a Fermi liquid to a CFT.
  • To investigate the fate of Landau quasiparticles in such a coupled system.

Main Methods:

  • Construction of a holographic model in anti-de Sitter space.
  • Utilizing a quantum gas of fermions supported by electrostatic repulsion.
  • Analysis in the probe limit of the holographic description.

Main Results:

  • A stable bulk solution describing the coupled system was achieved.
  • The electrostatic repulsion prevents fermion collapse into the gravitational well.
  • Landau quasiparticles were found to survive the coupling to the CFT.

Conclusions:

  • The holographic framework provides a viable description for the interplay between Fermi liquids and CFTs.
  • The persistence of Landau quasiparticles suggests robust features of Fermi liquid theory under specific CFT couplings.