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| || [[http://dx.doi.org/10.1038/ncomms5492|Nature Communications 5, Article number: 4492]] || Observation of a quantum Cheshire Cat in a matter-wave interferometer experiment. Can a particle and its properties be spatially separated? || |
Interesting Papers Repository
Citation |
Title |
Observation of a quantum Cheshire Cat in a matter-wave interferometer experiment. Can a particle and its properties be spatially separated? |
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arXiv:1405.4720 |
Search for the Wreckage of Air France Flight AF 447. Finding crashed planes with Bayesian analysis |
Pegoraro, F., Radicati, L. A., Bernard, P., & Picasso, E. (1978). . Physics Letters A, 68(2), 165–168. |
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A Llordés et al, Nature 500, 323–326 (15 August 2013) doi:10.1038/nature12398 |
Tunable near-infrared and visible-light transmittance in nanocrystal-in-glass composites |
K. G. Arun and Archana Pai, Int. J. Mod. Phys. D 22, 1341012 (2013) arXiv:1302.2198 |
Tests Of General Relativity and alternative theories of gravity using gravitational wave observations |
Experimental signature of programmable quantum annealing, or WTF is D-Wave? Is it really a quantum computer? |
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Cool horizons for entangled black holes (see also John Preskill's blog post on the topic) |
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Cavity-stabilized laser with acceleration sensitivity below 10^−12 g^−1 |
RMP 84, 777 (2012) |
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Gravitational wave Energy absorption by the laser interferometers and How an interferometer extracts and amplifies power from a gravitational wave |
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Core-Collapse Supernovae, Neutrinos, and Gravitational Waves and Correlated Gravitational Wave and Neutrino Signals from General-Relativistic Rapidly Rotating Iron Core Collapse |
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Superluminal group velocities and information transfer and A systemized view of superluminal wave propagation |
arXiv:1110.2490v1 (2011) |
A Single-Ion Nuclear Clock for Metrology at the 19th Decimal Place |
Nature Photonics 5,517–519 (2011) |
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MNRAS 413, L101–L105 (2011) |
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Physics 3, 29 (2010) |
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PRL 105, 161101 (2010) |
Torsion-Bar Antenna for Low-Frequency Gravitational-Wave Observations |
Sensors and Transducers Vol.78 (1999) p92 |
Capacitance detection scheme for space accelerometers applications |
PRL (1973) |
Gravitational-Wave Observations as a Tool for Testing Relativistic Gravity |
RMP (2010) |
Introduction to quantum noise, measurement, and amplification |
RMP (2005) |
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10.1126/science.1225258 |
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App. Phys Lett. (2012) |
Popular papers from the last 5 years
Remember, though, popular doesn't necessarily mean good.
Citation |
Title |
Times Cited since 2005 |
PRL 96(11), 111101 (2006) |
Accurate evolutions of orbiting black-hole binaries without excision |
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PRL 96(11), 111102 (2006) |
Gravitational-wave extraction from an inspiraling configuration of merging black hole |
289 |
PRL 100(2), 021303 (2008) |
First results from the XENON10 dark matter experiment at the Gran Sasso National Laboratory |
237 |
PRL 96(11), 111102 (2006) |
Gravitational-wave extraction from an inspiraling configuration of merging black hole |
289 |
Appl. Optics 45(5), p836-850 (2006) |
Digital in-line holographic microscopy |
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Phys. Rev. D 79(1), 015014 (2009) |
A theory of dark-matter |
201 |
Opt. Lett. 32(1), p53-55 (2007) |
Negative-index metamaterial at 780 nm wavelength |
234 |
Misc.
http://www.nature.com/nature/journal/v464/n7289/full/nature08967.html Nature 464, 697-703 Quantum ground state and single-phonon control of a mechanical resonator A. D. O’Connell1, M. Hofheinz1, M. Ansmann1, Radoslaw C. Bialczak1, M. Lenander1, Erik Lucero1, M. Neeley1, D. Sank1, H. Wang1, M. Weides1, J. Wenner1, John M. Martinis1 & A. N. Cleland1
http://prl.aps.org/pdf/PRL/v104/i8/e083201 PRL 104, 083201 (2010) Direct Measurement of Intermediate-Range Casimir-Polder Potentials H. Bender, Ph.W. Courteille, C. Marzok, C. Zimmermann, and S. Slama
http://www.nature.com/nature/journal/v463/n7283/full/nature08685.html Nature 463, 924-925 An upper limit on the contribution of accreting white dwarfs to the type Ia supernova rate Marat Gilfanov1,2 & Ákos Bogdán1
http://prl.aps.org/pdf/PRL/v104/i7/e073601 PRL 104, 073601 (2010) Classical Signature of Ponderomotive Squeezing in a Suspended Mirror Resonator Francesco Marino,1 Francesco S. Cataliotti,2 Alessandro Farsi,1 Mario Siciliani de Cumis,3 and Francesco Marin1
http://prd.aps.org/pdf/PRD/v81/i4/e042001 PHYSICAL REVIEW D 81, 042001 (2010) Opto-acoustic interactions in gravitational wave detectors: Comparing flat-top beams with Gaussian beams S. Gras,* D. G. Blair, and L. Ju
http://prd.aps.org/pdf/PRD/v80/i12/e122005 PHYSICAL REVIEW D 80, 122005 (2009) Direct measurement of the anelasticity of a tungsten fiber Shan-Qing Yang, Liang-Cheng Tu, Cheng-Gang Shao, Qing Li, Qing-Lan Wang, Ze-Bing Zhou, and Jun Luo*
http://iopscience.iop.org/0264-9381/27/1/015003/pdf/0264-9381_27_1_015003.pdf Class. Quantum Grav. 27 (2010) 015003 A xylophone configuration for a third-generation gravitational wave detector S Hild1, S Chelkowski2, A Freise2, J Franc3, N Morgado3, R Flaminio3 and R DeSalvo4
Nature 464, 1018-1020 (15 April 2010). An image of an exoplanet separated by two diffraction beamwidths from a star
http://www.economist.com/science-technology/displaystory.cfm?story_id=15905845
http://www.nature.com/nature/journal/v464/n7291/full/nature09007.html
http://www.opticsinfobase.org/abstract.cfm?URI=ol-35-10-1665 Demonstration of a quantum-enhanced fiber Sagnac interferometer Moritz Mehmet, Tobias Eberle, Sebastian Steinlechner, Henning Vahlbruch, and Roman Schnabel Optics Letters, Vol. 35, Issue 10, pp. 1665-1667 (2010) doi:10.1364/OL.35.001665
http://arxiv.org/abs/1102.4905 Backward Pulling Force from a Forward Propagating Beam, Jun Chen, Jack Ng, Zhifang Lin, C. T. Chan
The BBC commentary on this paper: http://www.bbc.co.uk/news/science-environment-12620560
