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-rw-r--r-- | bibliography.bib | 87 |
1 files changed, 76 insertions, 11 deletions
diff --git a/bibliography.bib b/bibliography.bib index 2b7b073..8c43d1f 100644 --- a/bibliography.bib +++ b/bibliography.bib @@ -5475,14 +5475,14 @@ canceled @article{BoydFastlightJO10, author={Robert W Boyd and Zhimin Shi and Peter W Milonni}, - title={Noise properties of propagation through slow-� and fast-light media}, + title={Noise properties of propagation through slow- and fast-light media}, journal={Journal of Optics}, volume={12}, number={10}, pages={104007}, url={http://stacks.iop.org/2040-8986/12/i=10/a=104007}, year={2010}, - abstract={We consider the fundamental noise properties of propagation through slow-� and fast-light optical media based on gain or loss processes. For purely quantum mechanical reasons, any gain or loss process will add noise to a transmitted light field. We derive a relation between the noise figure describing the decreased signal-to-noise ratio of the transmitted laser pulse and the fractional delay or advancement of the pulse. We apply these results explicitly to the situation of operation on the line center of a gain or loss line. We find that for an ideal gain medium the noise figure never exceeds a factor of two. For a loss medium, there is no limit as to how large the noise figure can become. The increased noise in this case is the result of the random loss of photons from the optical field.} + abstract={We consider the fundamental noise properties of propagation through slow- and fast-light optical media based on gain or loss processes. For purely quantum mechanical reasons, any gain or loss process will add noise to a transmitted light field. We derive a relation between the noise figure describing the decreased signal-to-noise ratio of the transmitted laser pulse and the fractional delay or advancement of the pulse. We apply these results explicitly to the situation of operation on the line center of a gain or loss line. We find that for an ideal gain medium the noise figure never exceeds a factor of two. For a loss medium, there is no limit as to how large the noise figure can become. The increased noise in this case is the result of the random loss of photons from the optical field.} } @article{BoydGauthierScience09, @@ -5540,7 +5540,7 @@ canceled volume = "" } -@article{Grischkowsky1972pra, +@article{PhysRevA.6.1566, title = {Self-Defocusing of Light by Adiabatic Following in Rubidium Vapor}, author = {Grischkowsky, D. and Armstrong, J. A.}, journal = {Phys. Rev. A}, @@ -5554,7 +5554,7 @@ canceled publisher = {American Physical Society} } -@article{Mair2001Nature, +@article{ZeilingerNature01, title = {Entanglement of the Orbital Angular Momentum States of Photons}, author = {Mair, Alois and Vaziri, Alipasha and Weihs, Gregor and Zeilinger, Anton}, journal = {Nature}, @@ -5567,7 +5567,7 @@ canceled url = {http://dx.doi.org/10.1038/35085529} } -@article{Torres2007NaturePhy, +@article{NaturePhy3.5.305, title = {Twisted Photons}, author = {Molina-Terriza, Gabriel and Torres, Juan P. and Torner, Lluis}, journal = {Nature Physics}, @@ -5580,7 +5580,7 @@ canceled publisher = {Nature Publishing Group} } -@article{Marino2008prl, +@article{MarinoPhysRevLett08, title = {Delocalized Correlations in Twin Light Beams with Orbital Angular Momentum}, author = {Marino, A. M. and Boyer, V. and Pooser, R. C. and Lett, P. D. and Lemons, K. and Jones, K. M.}, journal = {Phys. Rev. Lett.}, @@ -5595,7 +5595,7 @@ canceled publisher = {American Physical Society} } -@article{Altman2005prl, +@article{BarbosaPhysRevLett05, title = {Quantum Imaging of Nonlocal Spatial Correlations Induced by Orbital Angular Momentum}, author = {Altman, Adam R. and K\"opr\"ul\"u, Kahraman G. and Corndorf, Eric and Kumar, Prem and Barbosa, Geraldo A.}, journal = {Phys. Rev. Lett.}, @@ -5610,9 +5610,8 @@ canceled publisher = {American Physical Society} } -@article{Torres2004ol, +@article{tornerOL04, author = {Torres, Juan P. and Osorio, Clara I. and Torner, Lluis}, - title = {Orbital angular momentum of entangled counterpropagating photons}, jounal = {Opt. Lett.}, voulume = {29}, issue = {16}, @@ -5621,7 +5620,7 @@ canceled url = {http://dx.doi.org/10.1364/OL.29.001939} } - @article{Boyer2008prl, + @article{LettPRL08, title = {Generation of Spatially Broadband Twin Beams for Quantum Imaging}, author = {Boyer, V. and Marino, A. M. and Lett, P. D.}, journal = {Phys. Rev. Lett.}, @@ -5636,7 +5635,7 @@ canceled publisher = {American Physical Society} } -@article{Bachor2009NaturePhotonics, +@article{BachorNaturePhotonics09, title = {Optical entanglement of co-propagating modes}, author = {Janousek, J. and Wagner, K. and Morizur, J-F. and Treps, N. and Lam, P.K. and Harb, C.C. and Bachor, H-A.}, journal = {Nature Photonics}, @@ -5651,3 +5650,69 @@ canceled publisher = {Nature Publishing Group} } +@Book{StructuredLightBook, + author = "D. L. Andrews", + editor = "", + title = "Structured Light and Its Applications: An Introduction to Phase-Structured Beams and Nanoscale Optical Forces", + PUBLISHER = "Academic Press", + year = "2008", + volume = "" +} + +@article{KwiatNP08, + title = {Optical entanglement of co-propagating modes}, + author = {Barreiro, J. T. and Wei, T.-C. and Kwiat, P. G.}, + journal = {Nature Physics}, + volume = {4}, + issue = {4}, + pages = {282--286}, + numpages = {5}, + year = {2008}, + url = {http://dx.doi.org/10.1038/nphys919}, + publisher = {Nature Publishing Group} +} + +@article{ChenOL09, +author = {Lixiang Chen and Weilong She}, +journal = {Opt. Lett.}, +keywords = {Parametric processes ; Quantum information and processing ; Polarization-selective devices}, +number = {12}, +pages = {1855--1857}, +publisher = {OSA}, +title = {Increasing Shannon dimensionality by hyperentanglement of spin and fractional orbital angular momentum}, +volume = {34}, +month = {Jun}, +year = {2009}, +url = {http://ol.osa.org/abstract.cfm?URI=ol-34-12-1855}, +doi = {10.1364/OL.34.001855}, +abstract = {We propose a single-photon spin-orbit entangled state analyzer for investigating the effective dimensionality of the Hilbert space spanned by spin and orbital angular momentum (OAM) states of twin photons from a spontaneous parametric downconversion (SPDC). The Pancharatnam-Berry phase element, the key element called a q plate equipped in the analyzer, induces the coupling between spin and OAM. It is found that the Shannon dimensionality of quantum channels in SPDC can be evidently increased owing to the spin-orbit hyperentanglement.}, +} + +@article{Franke-ArnoldPhysRevLett12, + title = {Trans-Spectral Orbital Angular Momentum Transfer via Four-Wave Mixing in Rb Vapor}, + author = {Walker, G. and Arnold, A. S. and Franke-Arnold, S.}, + journal = {Phys. Rev. Lett.}, + volume = {108}, + issue = {24}, + pages = {243601}, + numpages = {5}, + year = {2012}, + month = {Jun}, + doi = {10.1103/PhysRevLett.108.243601}, + url = {http://link.aps.org/doi/10.1103/PhysRevLett.108.243601}, + publisher = {American Physical Society} +} + +@article{AshkinPhysRevLett74, + title = {cw Self-Focusing and Self-Trapping of Light in Sodium Vapor}, + author = {Bjorkholm, J. E. and Ashkin, A. A.}, + journal = {Phys. Rev. Lett.}, + volume = {32}, + issue = {4}, + pages = {129--132}, + year = {1974}, + month = {Jan}, + doi = {10.1103/PhysRevLett.32.129}, + url = {http://link.aps.org/doi/10.1103/PhysRevLett.32.129}, + publisher = {American Physical Society} +}
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