Macroscopic Quantum Resonators (MAQRO): 2015 update

[1]  Peter F. Barker,et al.  Nonlinear dynamics and cavity cooling of levitated nanoparticles , 2016, NanoScience + Engineering.

[2]  T. S. Monteiro,et al.  Nonlinear Dynamics and Strong Cavity Cooling of Levitated Nanoparticles. , 2015, Physical review letters.

[3]  M. Aspelmeyer,et al.  Thermal performance of a radiatively cooled system for quantum optomechanical experiments in space , 2015, 1508.01032.

[4]  D. Boulanger,et al.  A new generation of ultra-sensitive electrostatic accelerometers for GRACE Follow-on and towards the next generation gravity missions , 2015 .

[5]  Lukas Novotny,et al.  Cooling and manipulation of a levitated nanoparticle with an optical fiber trap , 2015 .

[6]  L. Novotný,et al.  Long distance manipulation of a levitated nanoparticle in high vacuum , 2015, 1505.02012.

[7]  T. S. Monteiro,et al.  Cavity cooling a single charged levitated nanosphere. , 2015, Physical review letters.

[8]  Hendrik Ulbricht,et al.  A proposal for the experimental detection of CSL induced random walk , 2014, Scientific Reports.

[9]  I. McHardy,et al.  On the Existence of Low-Mass Dark Matter and its Direct Detection , 2014, Scientific Reports.

[10]  Caslav Brukner,et al.  Universal decoherence due to gravitational time dilation , 2013, Nature Physics.

[11]  P. Touboul,et al.  Free fall tests of the accelerometers of the MICROSCOPE mission , 2014 .

[12]  S. Nimmrichter Macroscopic Matter Wave Interferometry , 2014 .

[13]  P St J Russell,et al.  Damage-free single-mode transmission of deep-UV light in hollow-core PCF. , 2014, Optics express.

[14]  M. Paternostro,et al.  Proposal for a noninterferometric test of collapse models in optomechanical systems , 2014, 1402.5421.

[15]  James Bateman,et al.  Near-field interferometry of a free-falling nanoparticle from a point-like source , 2013, Nature Communications.

[16]  J. Anders,et al.  Nanoscale temperature measurements using non-equilibrium Brownian dynamics of a levitated nanosphere. , 2013, Nature nanotechnology.

[17]  N. Kiesel,et al.  MQES Macroscopic quantum experiments in space using massive mechanical resonators , 2014 .

[18]  P. Russell,et al.  Mode-based microparticle conveyor belt in air-filled hollow-core photonic crystal fiber. , 2013, Optics express.

[19]  Dmitry Strekalov,et al.  Wide-range cyclic phase matching and second harmonic generation in whispering gallery resonators , 2013 .

[20]  N. Kiesel,et al.  How cold can you get in space? Quantum physics at cryogenic temperatures in space , 2013, 1309.3234.

[21]  Marcel Mayor,et al.  Matter-wave interference of particles selected from a molecular library with masses exceeding 10,000 amu. , 2013, Physical chemistry chemical physics : PCCP.

[22]  Rainer Kaltenbaek,et al.  Testing quantum physics in space using optically trapped nanospheres , 2013, Optics & Photonics - NanoScience + Engineering.

[23]  Lukas Novotny,et al.  Thermal nonlinearities in a nanomechanical oscillator , 2013, Nature Physics.

[24]  Florian Blaser,et al.  Cavity cooling of an optically levitated submicron particle , 2013, Proceedings of the National Academy of Sciences.

[25]  J. Yngvason,et al.  Erwin Schrodinger--50 Years After , 2013 .

[26]  M. Aspelmeyer,et al.  Optomechanical Schrödinger cats – a case for space , 2013, 1502.02876.

[27]  M. Arndt,et al.  A universal matter-wave interferometer with optical ionization gratings in the time-domain , 2013, Nature Physics.

[28]  Jess Riedel Direct Detection of Classically Undetectable Dark Matter through Quantum Decoherence , 2012, 1212.3061.

[29]  Angelo Bassi,et al.  Models of Wave-function Collapse, Underlying Theories, and Experimental Tests , 2012, 1204.4325.

[30]  David Grass,et al.  Optical trapping and transport of nanoparticles with hollow core photonic crystal fibers , 2013 .

[31]  Karsten Danzmann,et al.  Intersatellite laser ranging instrument for the GRACE follow-on mission , 2012, Journal of Geodesy.

[32]  Lukas Novotny,et al.  Subkelvin parametric feedback cooling of a laser-trapped nanoparticle. , 2012, Physical review letters.

[33]  Gerald Hechenblaikner,et al.  Macroscopic quantum resonators (MAQRO) , 2012, 1201.4756.

[34]  Lee D. Feinberg,et al.  James Webb Space Telescope: large deployable cryogenic telescope in space , 2012 .

[35]  Markus Arndt,et al.  Colloquium: Quantum interference of clusters and molecules , 2011, 1109.5937.

[36]  M. Aspelmeyer,et al.  Laser cooling of a nanomechanical oscillator into its quantum ground state , 2011, Nature.

[37]  Fabio Costa,et al.  Quantum interferometric visibility as a witness of general relativistic proper time , 2011, Nature communications.

[38]  J. Teufel,et al.  Sideband cooling of micromechanical motion to the quantum ground state , 2011, Nature.

[39]  S. Schiller,et al.  Compact all-solid-state continuous-wave single-frequency UV source with frequency stabilization for laser cooling of Be+ ions , 2011 .

[40]  Mark G. Raizen,et al.  Millikelvin cooling of an optically trapped microsphere in vacuum , 2011, 1101.1283.

[41]  S. Reynaud,et al.  Electrostatic accelerometer with bias rejection for Gravitation and Solar System physics , 2010, 1011.6263.

[42]  M. Feng,et al.  Three-dimensional cooling and detection of a nanosphere with a single cavity , 2010, 1007.0827.

[43]  J. Ignacio Cirac,et al.  Optically Levitating Dielectrics in the Quantum Regime: Theory and Protocols , 2010, 1010.3109.

[44]  Erik Lucero,et al.  Quantum ground state and single-phonon control of a mechanical resonator , 2010, Nature.

[45]  J. Ignacio Cirac,et al.  Toward quantum superposition of living organisms , 2009, 0909.1469.

[46]  Photon-by-photon feedback control of a single-atom trajectory , 2009, Nature.

[47]  Angelo Bassi,et al.  Is Quantum Theory Exact? , 2009, Science.

[48]  T. Hayler,et al.  Observation of a kilogram-scale oscillator near its quantum ground state , 2009 .

[49]  Walter Fichter,et al.  LISA Pathfinder: the experiment and the route to LISA , 2009 .

[50]  S. Gerlich,et al.  Theory and experimental verification of Kapitza–Dirac–Talbot–Lau interferometry , 2009, 0902.0234.

[51]  Kerry Vahala,et al.  Cavity opto-mechanics. , 2007, Optics express.

[52]  D. E. Changa,et al.  Cavity opto-mechanics using an optically levitated nanosphere , 2009 .

[53]  James W. Beletic,et al.  Teledyne Imaging Sensors: silicon CMOS imaging technologies for x-ray, UV, visible, and near infrared , 2008, Astronomical Telescopes + Instrumentation.

[54]  Maximilian Schlosshauer-Selbach Decoherence and the quantum-to-classical transition , 2008 .

[55]  Paul A. Lightsey,et al.  James Webb Space Telescope: large deployable cryogenic telescope in space , 2012 .

[56]  Ulrich Bastian,et al.  The Gaia mission: science, organization and present status , 2007, Proceedings of the International Astronomical Union.

[57]  E. al.,et al.  DARWIN mission proposal to ESA , 2007, 0707.3385.

[58]  L. Di'osi Notes on certain Newton gravity mechanisms of wavefunction localization and decoherence , 2006, quant-ph/0607110.

[59]  Markus Loose,et al.  Space qualification and performance results of the SIDECAR ASIC , 2006, SPIE Astronomical Telescopes + Instrumentation.

[60]  S. Adler Lower and upper bounds on CSL parameters from latent image formation and IGM heating , 2006, quant-ph/0605072.

[61]  Karsten Danzmann,et al.  Laser development for LISA , 2006 .

[62]  S. Reynaud,et al.  Ultimate decoherence border for matter-wave interferometry. , 2005, Physical review letters.

[63]  K. Danzmann,et al.  The LTP experiment on the LISA Pathfinder mission , 2005, gr-qc/0504062.

[64]  S. Adler,et al.  Towards quantum superpositions of a mirror: an exact open systems analysis—calculational details , 2004, quant-ph/0407084.

[65]  E. Schrödinger Die gegenwärtige Situation in der Quantenmechanik , 1935, Naturwissenschaften.

[66]  B. Tapley,et al.  GRACE (Gravity Recovery and Climate Experiment) , 2004 .

[67]  Sandra Stry,et al.  Antireflection-coated blue GaN laser diodes in an external cavity and Doppler-free indium absorption spectroscopy. , 2003, Applied optics.

[68]  A. Zeilinger,et al.  Concepts for near-field interferometers with large molecules , 2003 .

[69]  G. Ghirardi,et al.  Dynamical reduction models , 2003, quant-ph/0302164.

[70]  Fetah Benabid,et al.  Particle levitation and guidance in hollow-core photonic crystal fiber. , 2002, Optics express.

[71]  P. Pearle,et al.  Wavefunction Collapse and Random Walk , 2002, quant-ph/0208009.

[72]  P. Touboul,et al.  Towards low-temperature electrostatic accelerometry , 2002 .

[73]  Pierre Touboul,et al.  The MICROSCOPE space mission , 2001 .

[74]  S. Snyder,et al.  Proceedings of the National Academy of Sciences , 1999 .

[75]  R. Penrose On Gravity's role in Quantum State Reduction , 1996 .

[76]  Yuen,et al.  Impossibility of measuring the wave function of a single quantum system. , 1996, Physical review letters.

[77]  S. Reynaud,et al.  Gravitational quantum limit for length measurements , 1994, quant-ph/9801074.

[78]  W. Zurek The Environment, Decoherence and the Transition from Quantum to Classical , 1991 .

[79]  Pearle,et al.  Markov processes in Hilbert space and continuous spontaneous localization of systems of identical particles. , 1990, Physical review. A, Atomic, molecular, and optical physics.

[80]  B. Bonner,et al.  High energy , 1989 .

[81]  John Ellis,et al.  Quantum gravity and the collapse of the wavefunction , 1989 .

[82]  Pearle,et al.  Combining stochastic dynamical state-vector reduction with spontaneous localization. , 1989, Physical review. A, General physics.

[83]  N. Gisin Stochastic quantum dynamics and relativity , 1989 .

[84]  Physical Review Letters 63 , 1989 .

[85]  Weber,et al.  Unified dynamics for microscopic and macroscopic systems. , 1986, Physical review. D, Particles and fields.

[86]  Lajos Diósi,et al.  Gravitation and quantummechanical localization of macroobjects , 1984, 1412.0201.

[87]  J. Hagelin,et al.  Search for violations of quantum mechanics , 1984 .

[88]  John L. Hall,et al.  Laser phase and frequency stabilization using an optical resonator , 1983 .

[89]  R. Stephenson A and V , 1962, The British journal of ophthalmology.

[90]  Livy 61 , 1961, Tao te Ching.

[91]  L. Biermann,et al.  Solar corpuscular radiation and the interplanetary gas , 1957 .

[92]  R. Pound,et al.  Electronic frequency stabilization of microwave oscillators. , 1946, The Review of scientific instruments.

[93]  O. Stern,et al.  Beugung von Molekularstrahlen , 1930 .

[94]  G. Thomson,et al.  The Diffraction of Cathode Rays by Thin Films of Platinum , 1927, Nature.

[95]  C. Davisson,et al.  The Scattering of Electrons by a Single Crystal of Nickel , 1927, Nature.

[96]  L. Broglie Waves and Quanta , 1923, Nature.

[97]  K. Schwarzschild,et al.  The Observatory , 1886 .