Publications

2018

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Evidence for structural damping in a high-stress silicon nitride nanobeam and its implications for quantum optomechanics

S. Fedorov; V. Sudhir; R. D. Schilling; H. Schütz; D. J. Wilson et al.

Physics Letters A. 2018-08-25.

DOI : 10.1016/j.physleta.2017.05.046.

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Ultra-smooth silicon nitride waveguides based on the Damascene reflow process: fabrication and loss origins

M. Pfeiffer; J. Liu; A. Raja; T. Morais; B. Ghadiani et al.

OPTICA. 2018.

DOI : 10.1364/OPTICA.5.000884.

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Photonic Damascene Process for Low-Loss, High-Confinement Silicon Nitride Waveguides

M. Pfeiffer; C. Herkommer; J. Liu; T. Morais; M. Zervas et al.

IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS. 2018.

DOI : 10.1109/JSTQE.2018.2808258.

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Level attraction in a microwave optomechanical circuit

N. Bernier; L. Toth; A. Feofanov; T. Kippenberg

PHYSICAL REVIEW A. 2018.

DOI : 10.1103/PhysRevA.98.023841.

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Double inverse nanotapers for efficient light coupling to integrated photonic devices

J. Liu; A. Raja; M. Pfeiffer; C. Herkommer; H. Guo et al.

OPTICS LETTERS. 2018.

DOI : 10.1364/OL.43.003200.

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Dissipative Kerr solitons in optical microresonators

T. Kippenberg; A. Gaeta; M. Lipson; M. Gorodetsky

SCIENCE. 2018.

DOI : 10.1126/science.aan8083.

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A maser based on dynamical backaction on microwave light

L. Toth; N. Bernier; A. Feofanov; T. Kippenberg

PHYSICS LETTERS A. 2018.

DOI : 10.1016/j.physleta.2017.05.045.

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Quantum-Limited Directional Amplifiers with Optomechanics

D. Malz; L. D. Tóth; N. R. Bernier; A. K. Feofanov; T. J. Kippenberg et al.

Physical Review Letters. 2018.

DOI : 10.1103/PhysRevLett.120.023601.

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Effects of erbium-doped fiber amplifier induced pump noise on soliton Kerr frequency combs for 64-quadrature amplitude modulation transmission

P. Liao; C. Bao; A. Kordts; M. Karpov; M. H. P. Pfeiffer et al.

Optics Letters. 2018.

DOI : 10.1364/OL.43.002495.

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Elastic strain engineering for ultralow mechanical dissipation

A. H. Ghadimi; S. A. Fedorov; N. J. Engelsen; M. J. Bereyhi; R. Schilling et al.

Science. 2018.

DOI : 10.1126/science.aar6939.

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Highly efficient coupling of crystalline microresonators to integrated photonic waveguides

M. Anderson; N. G. Pavlov; J. D. Jost; G. Lihachev; J. Liu et al.

Optics Letters. 2018.

DOI : 10.1364/OL.43.002106.

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Mid-infrared frequency comb via coherent dispersive wave generation in silicon nitride nanophotonic waveguides

H. Guo; C. Herkommer; A. Billat; D. Grassani; C. Zhang et al.

Nature Photonics. 2018.

DOI : 10.1038/s41566-018-0144-1.

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Excitonic Emission of Monolayer Semiconductors Near-Field Coupled to High-Q Microresonators

C. Javerzac-Galy; A. Kumar; R. D. Schilling; N. Piro; S. Khorasani et al.

Nano Letters. 2018.

DOI : 10.1021/acs.nanolett.8b00749.

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An optical-frequency synthesizer using integrated photonics

D. T. Spencer; T. Drake; T. C. Briles; J. Stone; L. C. Sinclair et al.

Nature. 2018.

DOI : 10.1038/s41586-018-0065-7.

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Ultrafast optical ranging using microresonator soliton frequency combs

P. Trocha; M. Karpov; D. Ganin; M. H. P. Pfeiffer; A. Kordts et al.

Science. 2018.

DOI : 10.1126/science.aao3924.

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Photonic chip-based soliton frequency combs covering the biological imaging window

M. Karpov; M. H. P. Pfeiffer; J. Liu; A. Lukashchuk; T. Kippenberg

Nature Communications. 2018.

2017

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Intermode Breather Solitons in Optical Microresonators

H. Guo; E. Lucas; M. H. P. Pfeiffer; M. Karpov; M. Anderson et al.

Physical Review X. 2017.

DOI : 10.1103/PhysRevX.7.041055.

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Tunable insertion of multiple lines into a Kerr frequency comb using electro-optical modulators

C. Bao; P. Liao; A. Kordts; M. Karpov; M. H. P. Pfeiffer et al.

Optics Letters. 2017.

DOI : 10.1364/Ol.42.003765.

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Quantum Correlations of Light from a Room-Temperature Mechanical Oscillator

V. Sudhir; R. Schilling; S. A. Fedorov; H. Schutz; D. J. Wilson et al.

Physical Review X. 2017.

DOI : 10.1103/PhysRevX.7.031055.

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Pump-linewidth-tolerant wavelength multicasting using soliton Kerr frequency combs

P. Liao; C. Bao; A. Kordts; M. Karpov; M. H. P. Pfeiffer et al.

Optics Letters. 2017.

DOI : 10.1364/Ol.42.003177.

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Octave-spanning dissipative Kerr soliton frequency combs in Si3N4 microresonators

M. H. P. Pfeiffer; C. Herkommer; J. Liu; H. Guo; M. Karpov et al.

Optica. 2017.

DOI : 10.1364/OPTICA.4.000684.

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Microresonator-based solitons for massively parallel coherent optical communications

P. Marin-Palomo; J. N. Kemal; M. Karpov; A. Kordts; J. Pfeifle et al.

Nature. 2017.

DOI : 10.1038/nature22387.

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Nonreciprocal reconfigurable microwave optomechanical circuit

N. R. Bernier; L. D. Toth; A. Koottandavida; M. A. Ioannou; D. Malz et al.

arXiv. 2017.

DOI : 10.1038/s41467-017-00447-1.

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Detuning-dependent properties and dispersion-induced instabilities of temporal dissipative Kerr solitons in optical microresonators

E. Lucas; H. Guo; J. D. Jost; M. Karpov; T. J. Kippenberg

Physical Review A. 2017.

DOI : 10.1103/PhysRevA.95.043822.

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Heterogeneous integration of lithium niobate and silicon nitride waveguides for wafer-scale photonic integrated circuits on silicon

L. Chang; M. H. P. Pfeiffer; N. Volet; M. Zervas; J. D. Peters et al.

Optics Letters. 2017.

DOI : 10.1364/Ol.42.000803.

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Dependence of a microresonator Kerr frequency comb on the pump linewidth

P. Liao; C. Bao; A. Kordts; M. Karpov; M. H. P. Pfeiffer et al.

Optics Letters. 2017.

DOI : 10.1364/Ol.42.000779.

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Coupling Ideality of Integrated Planar High-Q Microresonators

M. H. P. Pfeiffer; J. Liu; M. Geiselmann; T. J. Kippenberg

Physical Review Applied. 2017.

DOI : 10.1103/PhysRevApplied.7.024026.

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Appearance and Disappearance of Quantum Correlations in Measurement-Based Feedback Control of a Mechanical Oscillator

V. Sudhir; D. J. Wilson; R. Schilling; H. Schuetz; S. A. Fedorov et al.

Physical Review X. 2017.

DOI : 10.1103/PhysRevX.7.011001.

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Soliton dual frequency combs in crystalline microresonators

N. G. Pavlov; G. Lihachev; S. Koptyaev; E. Lucas; M. Karpov et al.

Optics Letters. 2017.

DOI : 10.1364/OL.42.000514.

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Dual-pump generation of high-coherence primary Kerr combs with multiple sub-lines

C. Bao; P. Liao; A. Kordts; L. Zhang; M. Karpov et al.

Optics Letters. 2017.

DOI : 10.1364/OL.42.000595.

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Breathing dissipative solitons in optical microresonators

E. Lucas; M. Karpov; H. Guo; M. Gorodetsky; T. Kippenberg

Nature Communications. 2017.

DOI : 10.1038/s41467-017-00719-w.

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Self-referenced photonic chip soliton Kerr frequency comb

V. Brasch; E. Lucas; J. D. Jost; M. Geiselmann; T. J. Kippenberg

Light: Science & Applications. 2017.

DOI : 10.1038/lsa.2016.202.

2016

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A dissipative quantum reservoir for microwave light using a mechanical oscillator

L. D. Toth; N. R. Bernier; A. Nunnenkamp; A. Feofanov; T. Kippenberg

arXiv. 2016.

DOI : 10.1038/Nphys4121.

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Study on the detuning-dependent properties of a temporal dissipative Kerr soliton in an optical microresonator

E. G. A. Lucas; J. D. Jost; T. Kippenberg

arXiv.org. 2016.

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Harmonization of chaos into a soliton in Kerr frequency combs

V. E. Lobanov; G. V. Lihachev; N. G. Pavlov; A. V. Cherenkov; T. J. Kippenberg et al.

Optics Express. 2016.

DOI : 10.1364/Oe.24.027382.

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Bringing short-lived dissipative Kerr soliton states in microresonators into a steady state

V. Brasch; M. Geiselmann; M. H. P. Pfeiffer; T. J. Kippenberg

Optics Express. 2016.

DOI : 10.1364/Oe.24.029312.

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On-chip microwave-to-optical quantum coherent converter based on a superconducting resonator coupled to an electro-optic microresonator

C. Javerzac-Galy; K. Plekhanov; N. R. Bernier; L. D. Toth; A. K. Feofanov et al.

Physical Review A. 2016.

DOI : 10.1103/PhysRevA.94.053815.

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Mid-infrared ultra-high-Q resonators based on fluoride crystalline materials

C. Lecaplain; C. Javerzac-Galy; M. L. Gorodetsky; T. J. Kippenberg

Nature Communications. 2016.

DOI : 10.1038/ncomms13383.

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Universal dynamics and deterministic switching of dissipative Kerr solitons in optical microresonators

H. Guo; M. Karpov; E. Lucas; A. Kordts; M. Pfeiffer et al.

Nature Physics. 2016.

DOI : 10.1038/nphys3893.

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Demonstration of optical multicasting using Kerr frequency comb lines

C. Bao; P. Liao; A. Kordts; M. Karpov; M. H. P. Pfeiffer et al.

Optics Letters. 2016.

DOI : 10.1364/Ol.41.003876.

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Frequency comb generation in the green using silicon nitride microresonators

L. Wang; L. Chang; N. Volet; M. H. P. Pfeiffer; M. Zervas et al.

Laser & Photonics Reviews. 2016.

DOI : 10.1002/lpor.201600006.

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Near-Field Integration of a SiN Nanobeam and a SiO2 Microcavity for Heisenberg-Limited Displacement Sensing

R. Schilling; H. Schutz; A. H. Ghadimi; V. Sudhir; D. J. Wilson et al.

Physical Review Applied. 2016.

DOI : 10.1103/PhysRevApplied.5.054019.

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A strongly coupled K-type micromechanical system

H. Okamoto; R. Schilling; H. Schuetz; V. Sudhir; D. J. Wilson et al.

Applied Physics Letters. 2016.

DOI : 10.1063/1.4945741.

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Frequency-comb-assisted broadband precision spectroscopy with cascaded diode lasers

J. Liu; V. Brasch; M. H. P. Pfeiffer; A. Kordts; A. N. Kamel et al.

Optics Letters. 2016.

DOI : 10.1364/OL.41.003134.

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Dissipation engineering of high-stress silicon nitride nanobeams

A. H. Ghadimi; D. J. Wilson; T. Kippenberg

Arxiv. 2016.

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Raman Self-Frequency Shift of Dissipative Kerr Solitons in an Optical Microresonator

M. Karpov; H. Guo; A. Kordts; V. Brasch; M. H. Pfeiffer et al.

Physical Review Letters. 2016.

DOI : 10.1103/PhysRevLett.116.103902.

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Photonic Damascene process for integrated high-Q microresonator based nonlinear photonics

M. H. P. Pfeiffer; A. Kordts; V. Brasch; M. Zervas; M. Geiselmann et al.

Optica. 2016.

DOI : 10.1364/OPTICA.3.000020.

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Higher order mode suppression in high-Q anomalous dispersion SiN microresonators for temporal dissipative Kerr soliton formation

A. Kordts; M. H. P. Pfeiffer; H. Guo; V. Brasch; T. J. Kippenberg

Optics Letters. 2016.

DOI : 10.1364/OL.41.000452.

2015

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Molecular cavity optomechanics as a theory of plasmon-enhanced Raman scattering

P. Roelli; C. Galland; N. Piro; T. J. Kippenberg

Nature Nanotechnology. 2015.

DOI : 10.1038/nnano.2015.264.

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All-optical stabilization of a soliton frequency comb in a crystalline microresonator

J. D. Jost; E. Lucas; T. Herr; C. Lecaplain; V. Brasch et al.

Optics Letters. 2015.

DOI : 10.1364/Ol.40.004723.

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Photonic chip-based optical frequency comb using soliton Cherenkov radiation

V. Brasch; M. Geiselmann; T. Herr; G. Lihachev; M. H. P. Pfeiffer et al.

Science. 2015.

DOI : 10.1126/science.aad4811.

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Counting the cycles of light using a self-referenced optical microresonator

J. D. Jost; T. Herr; C. Lecaplain; V. Brasch; M. H. P. Pfeiffer et al.

Optica. 2015.

DOI : 10.1364/Optica.2.000706.

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Plasmomechanical Resonators Based on Dimer Nanoantennas

R. Thijssen; T. J. Kippenberg; A. Polman; E. Verhagen

Nano Letters. 2015.

DOI : 10.1021/acs.nanolett.5b00858.

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Measurement-based control of a mechanical oscillator at its thermal decoherence rate

D. J. Wilson; V. Sudhir; N. Piro; R. Schilling; A. Ghadimi et al.

Nature. 2015.

DOI : 10.1038/nature14672.

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Frequency combs and platicons in optical microresonators with normal GVD

V. E. Lobanov; G. Lihachev; T. J. Kippenberg; M. L. Gorodetsky

Optics Express. 2015.

DOI : 10.1364/Oe.23.007713.

2014

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Radiation hardness of high-Q silicon nitride microresonators for space compatible integrated optics

V. Brasch; Q.-F. Chen; S. Schiller; T. J. Kippenberg

Optics Express. 2014.

DOI : 10.1364/Oe.22.030786.

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Cavity optomechanics

M. Aspelmeyer; T. J. Kippenberg; F. Marquard

Reviews Of Modern Physics. 2014.

DOI : 10.1103/RevModPhys.86.1391.

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Parallel Transduction of Nanomechanical Motion Using Plasmonic Resonators

R. Thijssen; T. J. Kippenberg; A. Polman; E. Verhagen

Acs Photonics. 2014.

DOI : 10.1021/ph500262b.

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Determination of effective mechanical properties of a double-layer beam by means of a nano-electromechanical transducer

F. Hocke; M. Pernpeintner; X. Zhou; A. Schliesser; T. J. Kippenberg et al.

Applied Physics Letters. 2014.

DOI : 10.1063/1.4896785.

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Quantum-Limited Amplification and Parametric Instability in the Reversed Dissipation Regime of Cavity Optomechanics

A. Nunnenkamp; V. Sudhir; A. K. Feofanov; A. Roulet; T. J. Kippenberg

Physical Review Letters. 2014.

DOI : 10.1103/PhysRevLett.113.023604.

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Mode Spectrum and Temporal Soliton Formation in Optical Microresonators

T. Herr; V. Brasch; J. D. Jost; I. Mirgorodskiy; G. Lihachev et al.

Physical Review Letters. 2014.

DOI : 10.1103/PhysRevLett.113.123901.

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Heralded Single-Phonon Preparation, Storage, and Readout in Cavity Optomechanics

C. Galland; N. Sangouard; N. Piro; N. Gisin; T. J. Kippenberg

Physical Review Letters. 2014.

DOI : 10.1103/PhysRevLett.112.143602.

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Coherent terabit communications with microresonator Kerr frequency combs

J. Pfeifle; V. Brasch; M. Lauermann; Y. Yu; D. Wegner et al.

Nature Photonics. 2014.

DOI : 10.1038/nphoton.2014.57.

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Temporal solitons in optical microresonators

T. Herr; V. Brasch; J. D. Jost; C. Y. Wang; N. M. Kondratiev et al.

Nature Photonics. 2014.

DOI : 10.1038/Nphoton.2013.343.

2013

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Slowing, advancing and switching of microwave signals using circuit nanoelectromechanics

X. Zhou; F. Hocke; A. Schliesser; A. Marx; H. Huebl et al.

Nature Physics. 2013.

DOI : 10.1038/nphys2527.

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Stabilization of a linear nanomechanical oscillator to its thermodynamic limit

E. Gavartin; P. Verlot; T. J. Kippenberg

Nature Communications. 2013.

DOI : 10.1038/ncomms3860.

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Reply to 'Dissipative feedback does not improve the optimal resolution of incoherent force detection'

E. Gavartin; P. Verlot; T. J. Kippenberg

Nature Nanotechnology. 2013.

DOI : 10.1038/nnano.2013.200.

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Plasmon Nanomechanical Coupling for Nanoscale Transduction

R. Thijssen; E. Verhagen; T. J. Kippenberg; A. Polman

Nano Letters. 2013.

DOI : 10.1021/nl4015028.

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Nonlinear Quantum Optomechanics via Individual Intrinsic Two-Level Defects

T. Ramos; V. Sudhir; K. Stannigel; P. Zoller; T. J. Kippenberg

Physical Review Letters. 2013.

DOI : 10.1103/PhysRevLett.110.193602.

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Mid-infrared optical frequency combs at 2.5 mu m based on crystalline microresonators

C. Y. Wang; T. Herr; P. Del'Haye; A. Schliesser; J. Hofer et al.

Nature Communications. 2013.

DOI : 10.1038/ncomms2335.

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Phase noise measurement of external cavity diode lasers and implications for optomechanical sideband cooling of GHz mechanical modes

T. J. Kippenberg; A. Schliesser; M. L. Gorodetsky

New Journal Of Physics. 2013.

DOI : 10.1088/1367-2630/15/1/015019.

2012

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Dispersion engineering of thick high-Q silicon nitride ring-resonators via atomic layer deposition

J. Riemensberger; K. Hartinger; T. Herr; V. Brasch; R. Holzwarth et al.

Optics Express. 2012.

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Electromechanically induced absorption in a circuit nano-electromechanical system

F. Hocke; X. Zhou; A. Schliesser; T. J. Kippenberg; H. Huebl et al.

New Journal Of Physics. 2012.

DOI : 10.1088/1367-2630/14/12/123037.

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A hybrid on-chip optomechanical transducer for ultrasensitive force measurements

E. Gavartin; P. Verlot; T. J. Kippenberg

Nature Nanotechnology. 2012.

DOI : 10.1038/Nnano.2012.97.

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Dual-mode temperature compensation technique for laser stabilization to a crystalline whispering gallery mode resonator

I. Fescenko; J. Alnis; A. Schliesser; C. Y. Wang; T. J. Kippenberg et al.

Optics Express. 2012.

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Universal formation dynamics and noise of Kerr-frequency combs in microresonators

T. Herr; K. Hartinger; J. Riemensberger; C. Y. Wang; E. Gavartin et al.

Nature Photonics. 2012.

DOI : 10.1038/NPHOTON.2012.127.

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Quantum-coherent coupling of a mechanical oscillator to an optical cavity mode

E. Verhagen; S. Deleglise; S. Weis; A. Schliesser; T. J. Kippenberg

Nature. 2012.

DOI : 10.1038/nature10787.

2011

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Cavity optomechanics and cooling nanomechanical oscillators using microresonator enhanced evanescent near-field coupling

G. Anetsberger; E. M. Weig; J. P. Kotthaus; T. J. Kippenberg

Comptes Rendus Physique. 2011.

DOI : 10.1016/j.crhy.2011.10.012.

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Optomechanical Coupling in a Two-Dimensional Photonic Crystal Defect Cavity

E. Gavartin; R. Braive; I. Sagnes; O. Arcizet; A. Beveratos et al.

Physical Review Letters. 2011.

DOI : 10.1103/PhysRevLett.106.203902.

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Optomechanical sideband cooling of a micromechanical oscillator close to the quantum ground state

R. Riviere; S. Deleglise; S. Weis; E. Gavartin; O. Arcizet et al.

Physical Review A. 2011.

DOI : 10.1103/PhysRevA.83.063835.

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Thermal-noise-limited crystalline whispering-gallery-mode resonator for laser stabilization

J. Alnis; A. Schliesser; C. Y. Wang; J. Hofer; T. J. Kippenberg et al.

Physical Review A. 2011.

DOI : 10.1103/PhysRevA.84.011804.

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Octave Spanning Tunable Frequency Comb from a Microresonator

P. Del'Haye; T. Herr; E. Gavartin; M. L. Gorodetsky; R. Holzwarth et al.

Physical Review Letters. 2011.

DOI : 10.1103/PhysRevLett.107.063901.

2010

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Microresonators: Particle sizing by mode splitting

T. J. Kippenberg

Nature Photonics. 2010.

DOI : 10.1038/nphoton.2009.246.

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Second-harmonic generation in microresonators through natural phase matching

T. Kippenberg

Physics. 2010.

DOI : 10.1103/Physics.3.32.

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Theoretical Analysis of Mechanical Displacement Measurement Using a Multiple Cavity Mode Transducer

J. M. Dobrindt; T. J. Kippenberg

Physical Review Letters. 2010.

DOI : 10.1103/PhysRevLett.104.033901.

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Cavity optomechanics with ultrahigh-Q crystalline microresonators

J. Hofer; A. Schliesser; T. J. Kippenberg

Physical Review A. 2010.

DOI : 10.1103/PhysRevA.82.031804.

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Determination of the vacuum optomechanical coupling rate using frequency noise calibration

M. L. Gorodetksy; A. Schliesser; G. Anetsberger; S. Deleglise; T. J. Kippenberg

Optics Express. 2010.

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Optomechanically Induced Transparency

S. Weis; R. Riviere; S. Deleglise; E. Gavartin; O. Arcizet et al.

Science. 2010.

DOI : 10.1126/science.1195596.

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Measuring nanomechanical motion with an imprecision below the standard quantum limit

G. Anetsberger; E. Gavartin; O. Arcizet; Q. P. Unterreithmeier; E. M. Weig et al.

Physical Review A. 2010.

DOI : 10.1103/PhysRevA.82.061804.

2009

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Purcell-Factor-Enhanced Scattering from Si Nanocrystals in an Optical Microcavity

T. J. Kippenberg; A. L. Tchebotareva; J. Kalkman; A. Polman; K. J. Vahala

Physical Review Letters. 2009.

DOI : 10.1103/PhysRevLett.103.027406.

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Resolved-sideband cooling and position measurement of a micromechanical oscillator close to the Heisenberg uncertainty limit

A. Schliesser; O. Arcizet; R. Riviere; G. Anetsberger; T. J. Kippenberg

Nature Physics. 2009.

DOI : 10.1038/NPHYS1304.

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Frequency comb assisted diode laser spectroscopy for measurement of microcavity dispersion

P. Del'Haye; O. Arcizet; M. L. Gorodetsky; R. Holzwarth; T. Kippenberg

Nature Photonics. 2009.

DOI : 10.1038/NPHOTON.2009.138.

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Cryogenic properties of optomechanical silica microcavities

O. Arcizet; R. Riviere; A. Schliesser; G. Anetsberger; T. Kippenberg

Physical Review A. 2009.

DOI : 10.1103/PhysRevA.80.021803.

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Near-field cavity optomechanics with nanomechanical oscillators

G. Anetsberger; O. Arcizet; Q. P. Unterreithmeier; R. Riviere; A. Schliesser et al.

Nature Physics. 2009.

DOI : 10.1038/NPHYS1425.

2008

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Resolved-sideband cooling of a micromechanical oscillator

A. Schliesser; R. Rivière; G. Anetsberger; O. Arcizet; T. J. Kippenberg

Nature Physics. 2008.

DOI : 10.1038/nphys939.

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Full Stabilization of a Microresonator-Based Optical Frequency Comb

P. Del’Haye; O. Arcizet; A. Schliesser; R. Holzwarth; T. J. Kippenberg

Physical Review Letters. 2008.

DOI : 10.1103/PhysRevLett.101.053903.

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Cavity-assisted backaction cooling of mechanical resonators

I. Wilson-Rae; N. Nooshi; J. Dobrindt; T. J. Kippenberg; W. Zwerger

New Journal of Physics. 2008.

DOI : 10.1088/1367-2630/10/9/095007.

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High-sensitivity monitoring of micromechanical vibration using optical whispering gallery mode resonators

A. Schliesser; G. Anetsberger; R. Riviere; O. Arcizet; T. Kippenberg

New Journal Of Physics. 2008.

DOI : 10.1088/1367-2630/10/9/095015.

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Ultralow-dissipation optomechanical resonators on a chip

G. Anetsberger; R. Riviere; A. Schliesser; O. Arcizet; T. J. Kippenberg

Nature Photonics. 2008.

DOI : 10.1038/nphoton.2008.199.

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PHOTONICS Nanomechanics gets the shakes

T. J. Kippenberg

Nature. 2008.

DOI : 10.1038/456458a.

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Parametric Normal-Mode Splitting in Cavity Optomechanics

J. M. Dobrindt; I. Wilson-Rae; T. J. Kippenberg

Physical Review Letters. 2008.

DOI : 10.1103/PhysRevLett.101.263602.

2007

–  Cavity Opto-Mechanics
T.J. Kippenberg and K.J. Vahala
Optics Express 15, 17172 (2007)
–  Optical frequency comb generation from a monolithic microresonator
P. Del’Haye, A. Schliesser, O. Arcizet, T. Wilken, R. Holzwarth, and T.J. Kippenberg
Nature 450, 1214 (2007)
–  Theory of ground state cooling of a mechanical oscillator using dynamical back-action
I. Wilson-Rae, N. Nooshi, W. Zwerger and T.J. Kippenberg
Physical Review Letters 99, 093901 (2007)
–  Radiation pressure driven vibrational modes in ultra-high-Q silica microspheres
R. Ma, A. Schliesser, P. Del’Haye, A. Dabirian, G. Anetsberger and T.J. Kippenberg
Optics Letters 32, 2200 (2007)

2006
A. Schliesser, P. Del’Haye, N. Nooshi, K. J. Vahala and T. J. Kippenberg
“Radiation pressure cooling of a micromechanical oscillator using dynamical backaction”
Physical Review Letters 97, 243905 (2006)

In the group of Professor Kerry J. VahalavCalifornia Institute of Technology USA:

2006
T.J. Kippenberg, J. Kalkman, A. Polman, K.J. Vahala
“Demonstration of an erbium doped microdisk laser on a silicon chip”
Physical Review A, Rapid Communication, Vol. 74, Art. No. 051802 (November 2006)
T. Aoki, B. Dayan, E. Wilcut, W. P. Bowen, A. S. Parkins, T. J. Kippenberg, K. J. Vahala and H. J. Kimble
“Observation of strong coupling between one atom and a monolithic microresonator”
Nature 443, 671-674(12 October 2006)
J. Kalkman,A. Tchebotareva, A. Polman, T. J. Kippenberg, B. Min, K. J. Vahala
“Fabrication and characterization of erbium-doped toroidal microcavity lasers”
Journal of Applied Physics, No. 99, 083103 (2006)
H. Rokhsari,T. J. Kippenberg, T. Carmon and K. J. Vahala
“Theoretical analysis of radiation pressure induced mechanical oscillations (parametric oscillation instability) in optical microcavities”
IEEE Journal of Selected Topics in Quantum Electronics, Vol. 12, No.1 (2006)

2005
T. J. Kippenberg, H. Rokhsari, T. Carmon, A. Scherer and K. J. Vahala
“Analysis of radiation pressure induced mechanical oscillations of an optical microcavity ”
Physical Review Letters 95, Art. No. 033901 (2005)
H. Rokhsari, T. J. Kippenberg, T. Carmon, and K. J. Vahala
“Radiation Pressure driven micromechanical oscillator”
Optics Express, No. 13, p. 5293 (2005)
T. Carmon, T. J. Kippenberg, L. Yang, H. Rokhsari, S. M. Spillane, and K. J. Vahala
“Feedback control of ultra-high-Q microcavities: application to micro-Raman lasers and microparametric oscillators”
Optics Express, Volume 13, No. 9 (2005)
S. M. Spillane, T. J. Kippenberg, K.J. Vahala, K.W. Goh, E. Wilcut, H.J. Kimble
“Ultra-high-Q toroidal microresonators for cavity quantum electrodynamics”
Phys. Rev. A 71, 013817 (2005)

2004
T. J. Kippenberg, S. M. Spillane, B. Min and K. J. Vahala
“Demonstration of ultra-high-Q small mode volume toroid microcavities on a chip”
Applied Physics Letters, Vol. 85, No. 25 (December 2004)
T. J. Kippenberg, S. M. Spillane, B. Min and K. J. Vahala
“Theoretical and Experimental Study of Stimulated Raman Scattering in Ultra-high-Q Optical Microcavities”
Journal of Selected Topics in Quantum Electronics, Vol. 5, No. 10, “Special Issue: Nonlinear Optics”, (October 2004)
B.Min, T. J. Kippenberg, L. Yang, K.J. Vahala, J. Kalkman and A. Polman
“Erbium-implanted high-Q silica toroidal microcavity laser on a silicon chip”
Phys. Rev. A 70, 033803 (2004)
T. J. Kippenberg, S. M. Spillane, D. K. Armani and K. J. Vahala
“Kerr-nonlinearity optical parametric oscillation in a toroid microcavity”
Physical Review Letters, Vol. 8, No. 93, Art. No. 083904, August 2004.
T. J. Kippenberg, S. M. Spillane, D. K. Armani and K. J. Vahala
“Ultralow-threshold microcavity Raman laser on a microelectronic chip”
Optics Letters, Volume 29, No. 11, 1224-1227, June 2004.
A. Polman, B. Min, J. Kalkman, T. J. Kippenberg and K. J. Vahala
“Compact, fiber-compatile cascaded Raman laser”
Applied Physics Letters, vol 84, No. 7, pp. 1037, February 2004.

2003
B. Min, T. J. Kippenberg and K. J. Vahala
“Compact, fiber-compatile cascaded Raman laser”
Optics Letters, vol. 28, No. 17, 1507, September 2003.
T. J. Kippenberg, S. M. Spillane, D. K. Armani and K. J. Vahala
“Fabrication and coupling to planar high-Q silica disk microcavities”
Applied Physics Letters, vol. 83, No. 4, 797-799, July 2003.
S. M. Spillane, T. J. Kippenberg, O. J. Painter and K. J. Vahala
“Ideality in a Fiber-Taper-Coupled Microresonator System for Application to Cavity Quantum Electrodynamics”
Physical Review Letters, vol. 91, No. 4, 043902, July 2003.
D.K. Armani, T.J. Kippenberg, S.M. Spillane and K.J. Vahala
“Ultra-high-Q toroid microcavity on a chip”
Nature, vol. 421, pp. 925-929, 27 February 2003.

2002
T.J. Kippenberg, S.M. Spillane and K.J. Vahala,
“Modal coupling in traveling-wave resonators”
Optics Letters, vol. 27, No. 19, pp. 1669, October 2002
S.M. Spillane, T.J. Kippenberg, and K.J. Vahala
“Ultralow-threshold Raman laser using a spherical dielectric microcavity”
Nature, vol. 415, pp. 621-623, 7 February 2002

Thesis
T. J. Kippenberg, “Nonlinear Optics in ultra-high-Q whispering gallery mode microcavities”, California Institute of Technology, defended May 2004.
Bookchapter
T. J. Kippenberg et. al. “Fabrication, coupling and nonlinear optics in ultra-high-Q microsphere and chip-based toroid microcavities”, appeared in “Optical Microcavities”, editor K. Vahala
.