Thermal Physics: Fermi Gas and chemical potential

In summary, the conversation discusses the meaning of the definition of ##\mu_0 = E_F## and the relationship between the chemical potential and the energy level occupied by fermions at ##T = 0##. The chemical potential is described as the energy required to add one more particle to the system, and at ##T = 0##, the highest occupied energy level is ##E_F##. Therefore, it is logical to equate ##\mu(T=0) = E_F##.
  • #1
WWCY
479
12
Hi all, I have an issue trying to understand the following paragraph from Blundell's book.

Screenshot 2019-03-17 at 9.16.08 PM.png


How, exactly, does the definition of ##\mu_0 = E_F## "make sense"? In the sentence after 30.21, it seems to say that the mean energy for a system with ##N## particles differs from that of a system with ##N-1## particles by the highest occupy-able energy level at ##T = 0##, which is ##E_f##. What does this mean?

Many thanks in advance.
 

Attachments

  • Screenshot 2019-03-17 at 9.16.08 PM.png
    Screenshot 2019-03-17 at 9.16.08 PM.png
    53.4 KB · Views: 771
Science news on Phys.org
  • #2
The chemical potential can be seen as the (Gibbs free) energy per particle, or the energy necessary to add one more particle to the system. With fermions at T = 0, all states up to ##E_F## are occupied, therefore the next fermion will add an energy of ##E_F## to the system. It does make sense to equate ##\mu(T=0) = E_F##.
 
  • Like
Likes WWCY

1. What is thermal physics?

Thermal physics is a branch of physics that deals with the study of heat and its relationship to other forms of energy. It focuses on understanding the behavior of matter at the microscopic level and how it responds to changes in temperature and energy.

2. What is a Fermi gas?

A Fermi gas is a theoretical model of a gas composed of particles that obey the laws of quantum mechanics, specifically the Pauli exclusion principle. This means that no two particles can occupy the same quantum state at the same time, resulting in unique properties such as the Fermi-Dirac distribution.

3. How is chemical potential related to a Fermi gas?

Chemical potential is a thermodynamic quantity that measures the energy required to add or remove a particle from a system. In a Fermi gas, the chemical potential is directly related to the number of particles present and can be used to determine the behavior of the gas at different temperatures and pressures.

4. What is the significance of the Fermi energy in a Fermi gas?

The Fermi energy is the highest energy state occupied by a particle in a Fermi gas at absolute zero temperature. It serves as a reference point for determining the energy levels of particles within the gas and plays a crucial role in understanding the behavior and properties of the gas.

5. How does the chemical potential change with temperature in a Fermi gas?

In a Fermi gas, the chemical potential decreases with increasing temperature due to the thermal energy of the particles. This leads to a decrease in the number of particles present and a shift in the Fermi energy, affecting the overall behavior and properties of the gas.

Similar threads

I Connecting the microcanonical with the (grand) canonical ensemble
    • Thermodynamics
2
Replies
37
Views
3K
I How to see this form for the chemical potential of an ideal gas?
    • Thermodynamics
Replies
6
Views
944
I Chemical potential and Fermi level
    • Other Physics Topics
Replies
1
Views
1K
I Minimization of thermodynamic equilibrium
    • Thermodynamics
Replies
3
Views
835
I Concept of Thermal Equilibrium in the Context of Canonical Ensemble
    • Thermodynamics
Replies
5
Views
2K
I Trying to get a physical understanding of a Fermi gas
    • Classical Physics
Replies
2
Views
668
I Fermi energy for a Fermion gas with a multiplicity function ##g_n##
    • Quantum Physics
Replies
1
Views
471
A Thermal Properties of the Free Electron Gas: Fermi-Dirac Distribution
    • Atomic and Condensed Matter
Replies
1
Views
2K
I Helmholtz entropy of ideal gas mixture is additive?
    • Thermodynamics
Replies
3
Views
1K
I Fermi Energy Calculations About Non Parabolic Dispersions
    • Atomic and Condensed Matter
Replies
3
Views
2K

Hot Threads

Recent Insights

Back
Top