“can you please explain to me ...” (he started almost every question with that
-why R.T* + T.R* = 0
-what is h(z,t)
-what distribution is there in each port when you do “photon number state splitting”
-the connection with the balls and the two boxes
-what is the distribution in each of the ports of “coherent state splitting” and what is the mean
-what is detected and how in de the homodyne detection
-why would we want to know the quadrature fluctuations in homodyne detection
-what would happen is we put a coherent state at the input of the mach zehnder interferometer in stead of a single photon.
-what happen if i send a single photon plane wave to a double young slit
-in the franson interferometer is the state bunched or anti-bunched
-why do we make the time discrete?
-what is the physical case of 1/4*delta_(j-n)k
-how can you explain that by changing phi1 you can manipulated gamma_2 when it doesn’t even pass there.
Part 2 of the exam:
-explain the purcell effect
-why is f smaller than 1 and larger than 0
-what is gamma_e->g
-what is the purcell factor
-what is Q in the purcell factor
-on what does Delta_omega_c depend
-is the equation on slide 249 always valid (the lowest)
-explain in large steps how we found the top equation on slide 249
-what is v²(w_eg, r0) on slide 247
-why can do we only work with d//eg (slide 248)
-explain how we derived the einstein A coefficient, what does it mean, ... (in detail about the formulas, what all factors mean etc.) what is sigma, does it also contain omega, why summation, why integral, ... etc.
-what is a coherent state? when is a state coherent?