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STATISTICAL MECHANICS PD Dr. Christian Holm PART 5-6 Some special topics, Thermal Radiation, and Plank distribution.

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Presentation on theme: "STATISTICAL MECHANICS PD Dr. Christian Holm PART 5-6 Some special topics, Thermal Radiation, and Plank distribution."— Presentation transcript:

1 STATISTICAL MECHANICS PD Dr. Christian Holm PART 5-6 Some special topics, Thermal Radiation, and Plank distribution

2 Equipartition theorem Let Xi be Pi or ri Generalized equipartition theorem

3 Special case: For every quadratic degree of freedom Xi in the partition function, with an energy constitution We have

4 “one half k B T for every quadratic degree of freedom” Therefore ideal gas: 3N-- quadratic degree of freedom

5 Additive Hamiltonian If the Hamiltonian of a system is a sum of independent terms, the partition function is a product of independent terms, and thus the free energy is again a sum of independent terms. We used that for the ideal gas. Other example: Particle with translational, rotational, and vibrational degree of freedom

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7 Partition function in generalized coordinates The integrals will contain the Jacobian for the transformation in generalized coordinates. We are not going to look into this very much. Let’s just make one example. Dipole in electric field

8 The energy is The rotational partition function is then given by Explain why are different types of coordinates are useful. Jacobian from spherical coordinates, etc...

9 Substitute 4 (not really necessary to do the change of variable)

10 Via parameter differentiation, we can now work out the average component of D in the direction of the field:

11 Langevin function Then we define Then we have: For small arguments we have, hence for small electric fields we have

12 THERMAL RADIATION AND PLANK DISTRIBUTION

13 PLANK DISTRIBUTION FUNCTION The Plank distribution function is the first application of thermal Physics. It describes black body radiation and also thermal energy spectrum of lattice vibrations. The energy states of quantum harmonic oscillator is given by Where is the frequency of radiation and s is zero or any positive integer. We omit the zero point energy

14 The partition function is then given by This sum is of the form with (A mode of radiation can only be exited in units of ).

15 Which implies the partition function Which is geometric series with smaller than 1, thus

16 Now let’s calculate (average excitation state). The probability that the system is in the state of energy is given by the Boltzmann factor: The thermal average value of is Chose

17 Then we have, Thus, This is the Planck distribution function for the thermal average number of photons. or

18 Plank distribution as a function of the reduced temperature

19 PLANKS LAW AND STEFAN-BOLTZMANN LAW The thermal average energy in the mode is For high temperature limit (the classical limit): Then we have the approximation And the classical average energy is

20 Now we want to find out the radiation modes confined with in a perfectly conducting cavity in the form of a cube of edge L, then there is a set of modes of the form The field must be divergence free: (ii) (i)

21 The modes have to satisfy the wave equation Let When we insert (i) into (ii) Which implies that the electromagnetic field in the cavity is transversely polarized. The frequencies have to satisfy certain conditions.

22 The total energy in the cavity is Replace sum by integral over

23 Let This is known as Stefan-Boltzmann law of radiation.

24 Let us write with the help of energy per unit volume per unit frequency range This result is known as Planck radiation law.

25 Plot of x 3 /(e x - 1) with x =ωħ/τ. This function is involved in the Plank radiation law for the spectral density u . The temperature of a black body may be found from the frequency  max at which the radiant energy density is a maximum, per unit frequency range. 012345678 0 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 Maximum

26 The entropy of the thermal photons at constant volume is Then from And on integration


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