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|| [[http://dx.doi.org/10.1109/47.406731|Professional Communication, IEEE Transactions on, 38, 3 (1995) || '''“Professional communication” and the “odor of mendacity”: the persistent suspicion that skilful writing is successful lying''' Why does it feel like all Nature papers all bullshit? ||

Interesting Papers Repository

Citation

Title

[[http://dx.doi.org/10.1109/47.406731|Professional Communication, IEEE Transactions on, 38, 3 (1995)

“Professional communication” and the “odor of mendacity”: the persistent suspicion that skilful writing is successful lying Why does it feel like all Nature papers all bullshit?

LIGO-P1400255

Enhancing the bandwidth of gravitational-wave detectors with unstable optomechanical filters

Phys. Rev. Lett. 114, 043601

Observation of Generalized Optomechanical Coupling and Cooling on Cavity Resonance

doi:10.1038/nature14143

A possible close supermassive black-hole binary in a quasar with optical periodicity

Phys. Rev. Lett. 114, 013001

Measurement of the Gravity-Field Curvature by Atom Interferometry Physics today article

Phys. Rev. D 90, 062002

Physical response of light-time gravitational wave detectors

arXiv:1412.3455

Linking Tests of Gravity On All Scales: from the Strong-Field Regime to Cosmology

Nature Physics 2013

Gravitational bar detectors set limits to Planck-scale physics on macroscopic variables

Special QM FOundations issue

Testing the limits of quantum mechanical superpositions

dcc:P1400156

On the possibility of Vacuum-QED measurements with gravitational wave detectors Valera: g-2 probes virtual particles to all scales!

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?

arXiv:1405.4720

Search for the Wreckage of Air France Flight AF 447. Take a flight with Bayesian Airlines

Pegoraro, F., Radicati, L. A., Bernard, P., & Picasso, E. (1978). . Physics Letters A, 68(2), 165–168.

Electromagnetic detector for gravitational waves

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

doi:10.1038/ncomms3067

Experimental signature of programmable quantum annealing, or WTF is D-Wave? Is it really a quantum computer?

arXiv:1306.0533

Cool horizons for entangled black holes (see also John Preskill's blog post on the topic)

Free-Falling Interferometry

Cavity-stabilized laser with acceleration sensitivity below 10^−12 g^−1

RMP 84, 777 (2012)

Multiphoton entanglement and interferometry

Gravitational wave Energy absorption by the laser interferometers and How an interferometer extracts and amplifies power from a gravitational wave

Core-Collapse Supernovae, Neutrinos, and Gravitational Waves and Correlated Gravitational Wave and Neutrino Signals from General-Relativistic Rapidly Rotating Iron Core Collapse

Correlated environmental noise in global networks of gravitational-wave interferometers: observations and implications

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

[[http://www.nature.com/nphoton/journal/v5/n9/full/nphoton.2011.216.html|Optical isolation: A non-magnetic approach]

MNRAS 413, L101–L105 (2011)

The shortest period detached binary white dwarf system

Physics 3, 29 (2010)

Precise simulations for future gravitational wave detectors

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)

Decoherence, measurement, and interpretations

10.1126/science.1225258

Quantum-Enhanced Optical-Phase Tracking

App. Phys Lett. (2012)

Thin Film as resonant optical absorber

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

305

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

63

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



Journal_Club/Interesting_papers (last edited 2024-11-15 19:38:29 by AaronjonesATligoDOTorg)