Does DOS depend on Temperature?

  • Context: Graduate 
  • Thread starter Thread starter Diracmai
  • Start date Start date
  • Tags Tags
    Dos Temperature
Click For Summary
SUMMARY

The discussion centers on the relationship between Density of States (DOS) and temperature (T) within the framework of Green Function theory. It is established that DOS is defined as the number of states per energy, a property of the Hamiltonian that does not depend on temperature. However, the single-particle spectral function, which is related to DOS, incorporates temperature when calculating averages over excited states. The conversation highlights a potential contradiction between the independence of DOS from temperature and the temperature dependence of the spectral function.

PREREQUISITES
  • Understanding of Green Function theory
  • Familiarity with Density of States (DOS) concepts
  • Knowledge of single-particle spectral functions
  • Basic principles of statistical mechanics, including partition functions
NEXT STEPS
  • Study the implications of the Fermi liquid model on DOS
  • Explore the calculation of single-particle spectral functions at different temperatures
  • Investigate the role of partition functions in statistical mechanics
  • Examine advanced definitions and derivations of DOS in various physical systems
USEFUL FOR

Physicists, particularly those specializing in condensed matter physics, theoretical physicists, and researchers interested in the interplay between temperature and electronic properties of materials.

Diracmai
Messages
4
Reaction score
0
In the Green Function theory. The Spectrum Function can be related to DOS. However, in the nonzero T condition, we can also define Spectrum Function. In the other hand, in my conception, DOS is the independent quantity which is determined by the system.
So, does it mean DOS is actually a function which depends on T?
 
Physics news on Phys.org
Diracmai said:
In the Green Function theory. The Spectrum Function can be related to DOS. However, in the nonzero T condition, we can also define Spectrum Function. In the other hand, in my conception, DOS is the independent quantity which is determined by the system.
So, does it mean DOS is actually a function which depends on T?

Can you show me the single-particle spectral function for T=0 and T not zero, and tell me what you think is "different"?

Zz.
 
Well the standard definition of the DOS I have been given is the number of states per energy (number of states not number of occupied states). This is a property of the Hamiltonian so for every example I have seen the DOS does not depend on temperature, but the occupation numbers do. I don't know, there may be other definitions.
 
radium said:
Well the standard definition of the DOS I have been given is the number of states per energy (number of states not number of occupied states). This is a property of the Hamiltonian so for every example I have seen the DOS does not depend on temperature, but the occupation numbers do. I don't know, there may be other definitions.

There is a "lower level" derivation/definition of the DOS when mean-field approximation/Fermi liquid model is valid. If one starts with the single-particle spectral function A(k,w), which is the imaginary part of the single-particle Green's function, then the DOS is the "momentum average" of the spectral function, i.e. you integrate A(k,w) over all possible momentum k and essentially giving you A(w), which corresponds to some form of the density of states.

Zz.
 
ZapperZ said:
Can you show me the single-particle spectral function for T=0 and T not zero, and tell me what you think is "different"?

Zz.

The definition of Spectral Function need us to calculate the average value of commutator(retard or advance green function) according to all the occupied states. In the T=0 condition, we only need to compute the average value in the ground state. So, the function is independent of T. However, if T is a definite value, we need to include partition function to calculate the average value in all the excited states. So, the Spectral Function include the parameter T.

My question is, the definition of DOS seems like an definite quantity which independent of T. So, if we relate DOS to Spectral Function, there must be some contradiction between these two conception.

In your second response, do you means A(k,w) (momentum average) is dependent on T. And if we integrate all the k, the quantity A(w) is actually accord with the definition of DOS and independent of T?
 

Similar threads

Graduate Stability of persistent currents in superconductors regardless of temperature
  • · Replies 77 ·
3
Replies
77
Views
4K
Graduate Two-level system in a thermal bath
  • · Replies 0 ·
Replies
0
Views
2K
Graduate DFT: Investigating Change in States at Surfaces and Interfaces
  • · Replies 1 ·
Replies
1
Views
4K
Graduate How does DFT handle degenerate eigenvectors?
  • · Replies 1 ·
Replies
1
Views
3K
Graduate Studying Green's function in many body physics
  • · Replies 2 ·
Replies
2
Views
2K
Graduate Power spectral density of a laser's frequency noise
  • · Replies 6 ·
Replies
6
Views
3K
Graduate Spectrum analyzer for cavity locking
  • · Replies 2 ·
Replies
2
Views
3K
What is FreeDOS and how does it compare to Windows?
  • · Replies 19 ·
Replies
19
Views
7K
Graduate Carrier concentration temperature dependence; semiconductors
  • · Replies 1 ·
Replies
1
Views
13K
Effect of temperature on surface tension
  • · Replies 2 ·
Replies
2
Views
1K