References

tekijä: Francesco Pietro Massel Viimeisin muutos tiistai 30. tammikuuta 2018, 11.54

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Tiedoston sisältö

[TO]    D. Tong: Lectures on Quantum Field Theory (Chapter 6)
        http://www.damtp.cam.ac.uk/user/tong/qft/six.pdf

[GL1]	R. Glauber  "The quantum theory of optical coherence",
	Phys. Rev. 130, 2529 (1963).

[GL2]	R. Glauber  "Coherent and incoherent states of the radiation field",
	Phys Rev. 131, 2766 (1963).

[HB]	R. Hanbury Brown, R.  Twiss  "Correlation between Photons in two Coherent Beams of Light",
	Nature 177, 27 (1956).
	
[Baym]  Baym, G "The physics of Hanbury Brown--Twiss intensity interferometry: from stars to nuclear collisions."
	arXiv:nucl-th/9804026v2 (1998).

[Wiki-HT]

        "Hanbury Brown and Twiss effect" Wikipedia https://en.wikipedia.org/wiki/Hanbury_Brown_and_Twiss_effect

[Wa1]	D. F. Walls, "Squeezed states of light",
	Nature 306, 141 (1983).

[Wo1]	E. E. Wollman, et al., "Quantum squeezing of motion in a mechanical resonator",
	Science 349, 952 (2015).

[Pi1]	J. M. Pirkkalainen, et al., "Squeezing of quantum noise of motion in a micromechanical resonator",
	arXiv:1507.04209 (2015).

[Su]	E. C. G. Sudarshan, "Equivalence of semiclassical and quantum  mechanical descriptions of statistical light beams",
	Phys. Rev. Lett. 10, 277 (1963).

[Ad]	G. Adesso, S. Ragy & A. R. Lee,"Continuous variable quantum information: Gaussian states and beyond",
	Open Syst. Inf. Dyn. 21, 1440001 (2014).

[Hu]	K. Husimi, "Some Formal Properties of the Density Matrix",
	Proceedings of the Physico-Mathematical Society of Japan. 3rd Series 22, 264 (1940).

[Ei]	A. Einstein,  B. Podolsky,  N. Rosen, “Can quantum-mechanical description of physical reality be considered complete?”,
	Phys. Rev. 47, 777–780 (1935).

[Cl1]	J. F. Clauser, M. A. Horne, “Experimental consequences of objective local theories”
	Phys. Rev. D 10, 526–535 (1974).

[Be1]	J. S. Bell, “On the Einstein-Podolsky-Rosen paradox” 
	Physics 1, 195–200 (1964).

[Be2]	J. S. Bell, “Bertlmann socks and the nature of reality”
	Journal de Physique Colloques, 42, C2–41  (1981).

[Ou1]	Z.Y.Ou, L. Mandel, “Violation of Bell's Inequality and Classical Probability in a Two-Photon Correlation Experiment”
	Phys. Rev. Lett. 61, 50–53 (1988).

[Re1]	M. D. Reid, D. F. Walls, “Violations of classical inequalities in quantum optics”
	Phys. Rev. A 34, 1260–1276 (1986).

[Te]	Teufel, J. D. et al., “Sideband cooling of micromechanical motion to the quantum ground state” 
	Nature 475, 359–363 (2011).

[Ma]	Massel, F. et al. “Microwave amplification with nanomechanical resonators” 
	Nature 480, 351–354 (2011).

[It]   Some notes on Ito calculus: http://www.columbia.edu/~ks20/FE-Notes/4700-07-Notes-Ito.pdf 

[Ock]  Ockeloen-Korppi, C. F. et al. "Low-Noise Amplification and Frequency Conversion with a Multiport Microwave Optomechanical Device"
       PRX, 6, 041024 (2016).

Third-party videos:

Glauber's lecture "Quantum mechanical behavior of light"

https://youtu.be/kPeegVOnOWQ

Feynman "Sir D. Robb lectures"
  
1/2 https://www.youtube.com/watch?v=eLQ2atfqk2c
2/2 https://www.youtube.com/watch?v=kMSgE62S6oo 

Zeilinger's presentation, quantum optics, quantum information etc.  

https://www.youtube.com/watch?v=s3ZPWW5NOrw