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Greens functions

Greens functions. dr. Imalie Gamalath Dept. of Phys University of Colombo (Sri Lanka) http://www.cmb.ac.lk/academic/Science/Departments/Physics/. Response functions and Greens functions.

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Greens functions

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  1. Greens functions dr. Imalie GamalathDept. of PhysUniversity of Colombo (Sri Lanka) http://www.cmb.ac.lk/academic/Science/Departments/Physics/

  2. Response functions and Greens functions • When an external stimulationF(t) is applied to a physical system, if the measured response is A(t), • Linear Response • If A(t) is doubled when F(t) is doubled. Then is independent of F(t). • This is generally true if F(t) is not too large.

  3. Non Linear Response • If A(t) is different for different choices of F(t). • Response of a system to a unit impulse • is the response at time t, to a unit impulse delivered at time t0. This is called the Green’s function or influence function and denoted by

  4. The Green’s function satisfies the equation for a linear operator

  5. Assuming that the integral falls off faster than 1/r2, can simplify the problem by taking the volume so large, that the surface integralvanishes.

  6. Example: Consider an harmonic oscillator with external driving forceF(t).

  7. To solve this, generalize ω into complex plane and use contour integration. Contour can be closed only in the upper half plane.

  8. -R R This is consistent with the causality condition. No responsebefore the stimulation is applied.

  9. Fourier Transform Space

  10. Dissipative Response function

  11. Rate of Energy Loss

  12. Green’s function can be used to solve differential equations. • Time independent Schrodinger equation in one dimension

  13. Applying the boundary conditions

  14. 3.One dimensional heat conduction equation

  15. This is consistent with the causality condition. No response before the stimulation is applied. • Contour can be closed only in the lower half plane.

  16. Time independent Schrodinger equation in Three dimension

  17. In spherical polar coordinates

  18. Consider the integration • Contour can be closed only in the upper half plane

  19. Consider the integration • Contour can be closed only in the lower half plane

  20. Eigenfunction expansion

  21. Find the Greens function for a free particle inside a rectangular box with box planes defined as • Schrödinger equation for a free particle

  22. Example: Consider an infinite stretched string subject to an external harmonic force per unit length

  23. Green’s function for one particle Schrodinger equation • Green’s function are particularly useful in dealing with problems in perturbation theory. • If the eigenstateH0 is known and V is a perturbation

  24. Schrodinger equation • Solution can be written as an integral equation

  25. The solution can be iterated • By comparison with (b) • Green function can be derived from Dyson’s equation

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