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Fermi Level01:18

Fermi Level

The Fermi-Dirac function is represented by an S-shaped curve indicating the probability of an energy state being occupied by an electron at a given temperature. The Fermi level is the energy level at which there is a fifty percent chance of finding an electron, and it is positioned between the lower-energy valence band and the higher-energy conduction band.
At absolute zero temperature, electrons fill all energy states up to the Fermi level, leaving upper states empty. As the temperature rises,...
Fermi Level Dynamics01:12

Fermi Level Dynamics

The vacuum level denotes the energy threshold required for an electron to escape from a material surface. It is usually positioned above the conduction band of a semiconductor and acts as a benchmark for comparing electron energies within various materials.
Electron affinity in semiconductors refers to the energy gap between the minimum of its conduction band and the vacuum level and it is a critical parameter in determining how easily a semiconductor can accept additional electrons.
The work...
Estimation of the Physical Quantities01:05

Estimation of the Physical Quantities

On many occasions, physicists, other scientists, and engineers need to make estimates of a particular quantity. These are sometimes referred to as guesstimates, order-of-magnitude approximations, back-of-the-envelope calculations, or Fermi calculations. The physicist Enrico Fermi was famous for his ability to estimate various kinds of data with surprising precision. Estimating does not mean guessing a number or a formula at random. Instead, estimation means using prior experience and sound...
Equipotential Surfaces and Field Lines01:29

Equipotential Surfaces and Field Lines

Electric potential can be pictorially represented as a three-dimensional surface. On such a surface, the electric potential is constant everywhere. The equipotential surface is always perpendicular to the electric field lines, and while it is three-dimensional, it can be treated as an equipotential line in a two-dimensional case. These equipotential lines are also always perpendicular to electric field lines. The term equipotential is often used as a noun, referring to an equipotential line or...
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.
Energy Diagrams - II01:10

Energy Diagrams - II

Energy diagrams are important to understand the dynamics of a system. The topology of an energy diagram helps illustrate the equilibrium points of the system.
The point in the energy diagram at which the system’s potential energy is the lowest is known as the local minima. The system tends to stay in this position indefinitely unless acted upon by a net force. The slope of the potential energy diagram at the local minima is zero, indicating that zero net force is acting on the system. The slope...

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Related Experiment Video

Updated: Jul 4, 2026

Cooling an Optically Trapped Ultracold Fermi Gas by Periodical Driving
11:21

Cooling an Optically Trapped Ultracold Fermi Gas by Periodical Driving

Published on: March 30, 2017

Emergent physics: Fermi-point scenario.

Grigory Volovik1

  • 1Low Temperature Laboratory, Helsinki University of Technology, PO Box 5100, 02015 HUT, Finland. volovik@boojum.hut.fi

Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences
|June 7, 2008
PubMed
Summary
This summary is machine-generated.

The Fermi-point scenario proposes emergent gravity, where gravity arises with matter. This framework naturally explains fundamental physics, including a flat universe and the absence of contradictions between quantum mechanics and gravity.

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Last Updated: Jul 4, 2026

Cooling an Optically Trapped Ultracold Fermi Gas by Periodical Driving
11:21

Cooling an Optically Trapped Ultracold Fermi Gas by Periodical Driving

Published on: March 30, 2017

Angle-resolved Photoemission Spectroscopy At Ultra-low Temperatures
08:53

Angle-resolved Photoemission Spectroscopy At Ultra-low Temperatures

Published on: October 9, 2012

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Published on: May 18, 2021

Area of Science:

  • Theoretical Physics
  • Quantum Gravity
  • Cosmology

Background:

  • The standard model describes fundamental particles and forces but lacks a quantum theory of gravity.
  • Einstein's theory of general relativity is a classical description of gravity, incompatible with quantum mechanics at high energies.

Purpose of the Study:

  • To present the Fermi-point scenario as a novel framework for emergent gravity.
  • To explore the consequences of this scenario for fundamental physics and cosmology.

Main Methods:

  • The study outlines the theoretical consequences of the Fermi-point scenario.
  • It does not rely on traditional quantization methods for unifying gravity and quantum mechanics.

Main Results:

  • Gravity emerges alongside fermionic (Weyl fermions) and bosonic (gauge fields) matter.
  • The scenario predicts a naturally flat, four-dimensional spacetime with a small or zero cosmological constant.
  • Lorentz symmetry is preserved above Planck energy, and quantum mechanics is consistent with gravity.

Conclusions:

  • The Fermi-point scenario offers a consistent framework for emergent gravity, resolving key theoretical challenges.
  • It provides a new perspective on the unification of fundamental forces and the nature of spacetime.