Sudan function

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The Grüneisen parameter, γ, named after Eduard Grüneisen, describes the effect that changing the volume of a crystal lattice has on its vibrational properties, and, as a consequence, the effect that changing temperature has on the size or dynamics of the lattice. The term is usually reserved to describe the single thermodynamic property γ, which is a weighted average of the many separate parameters γi entering the original Grüneisen's formulation in terms of the phonon nonlinearities.[1]

Thermodynamic definitions

Because of the equivalences between many properties and derivatives within thermodynamics (e.g. see Maxwell Relations), there are many formulations of the Grüneisen parameter which are equally valid, leading to numerous distinct yet correct interpretations of its meaning.

Some formulations for the Grüneisen parameter include:

γ=V(dPdE)V=αKSCPρ=αKTCVρ

where V is volume, CP and CV are the principal (i.e. per-mass) heat capacities at constant pressure and volume, E is energy, α is the volume thermal expansion coefficient, KS and KT are the adiabatic and isothermal bulk moduli, and ρ is density.

Microscopic definition via the phonon frequencies

The physical meaning of the parameter can also be extended by combining thermodynamics with a reasonable microphysics model for the vibrating atoms within a crystal. When the restoring force acting on an atom displaced from its equilibrium position is linear in the atom's displacement, the frequencies ωi of individual phonons do not depend on the volume of the crystal or on the presence of other phonons, and the thermal expansion (and thus γ) is zero.[nb 1] When the restoring force is non-linear in the displacement, the phonon frequencies ωi change with the volume V. The Grüneisen parameter of an individual vibrational mode i can then be defined as (the negative of) the logarithmic derivative of the corresponding frequency ωi:

γi=VωiωiV.

Relationship between microscopic and thermodynamic models

Using the quasi-harmonic approximation for atomic vibrations, the macroscopic Grüneisen parameter (γ) can be related to the description of how the vibration frequencies (phonons) within a crystal are altered with changing volume (i.e. γi's). For example, one can show that

γ=αKTCVρ

if one defines γ as the weighted average

γ=iγicV,iicV,i,

where cV,i's are the partial vibrational mode contributions to the heat capacity, such that CV=1ρicV,i.

Proof

To prove this relation, it is easiest to introduce the heat capacity per particle C~V=icV,i; so one can write

iγicV,iC~V=αKTCVρ=αVKTC~V.

This way, it suffices to prove

iγicV,i=αVKT.

Left-hand side (def):

iγicV,i=i[VωiωiV][kB(ωikBT)2exp(ωikBT)[exp(ωikBT)1]2]

Right-hand side (def):

αVKT=[1V(VT)P]V[V(PV)T]=V(VT)P(PV)T

Furthermore (Maxwell relations):

(VT)P=T(GP)T=P(GT)P=(SP)T

Thus

αVKT=V(SP)T(PV)T=V(SV)T

This derivative is straightforward to determine in the quasi-harmonic approximation, as only the ωi are V-dependent.

SV=V{ikBln[1exp(ωi(V)kBT)]+i1Tωi(V)exp(ωi(V)kBT)1}

VSV=iVωiωiVkB(ωikBT)2exp(ωikBT)[exp(ωikBT)1]2=iγicV,i

By which it is proven that

γ=iγicV,iicV,i=αVKTC~V

Notes

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See also

External links

Gruneisen parameter has no units

References

   43 year old Petroleum Engineer Harry from Deep River, usually spends time with hobbies and interests like renting movies, property developers in singapore new condominium and vehicle racing. Constantly enjoys going to  destinations like Camino Real de Tierra Adentro.
  1. E. Grüneisen, The state of a body. Handb. Phys., 10, 1-52. NASA translation RE2-18-59W


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