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(For a list of publications sorted by date, click here)

Driven-dissipative quantum systems: lattices, interactions, topology, etc.

  1. Measurement and feedforward induced entanglement negativity transition
    A. Seif, Y.-X. Wang, R. Movassagh and A. A. Clerk
    arXiv:2310.18305 (2023).

  2. Understanding central spin decoherence due to interacting dissipative spin baths
    M. Onizhuk, Y.-X. Wang, J. Nagura, A. A. Clerk and G. Galli
    arXiv:2312.01205 (2023).

  3. Uncovering measurement-induced entanglement via directional adaptive dynamics and incomplete information
    Y.-X. Wang, A. Seif and A. A. Clerk
    arXiv:2310.01338 (2023).

  4. Entanglement phase transition due to reciprocity breaking without measurement or post-selection
    G. Lee, T. Jin, Y.-X. Wang, A. McDonald, A. A. Clerk
    PRX Quantum 5, 010313 (2024).

  5. Dynamics and Phases of Nonunitary Floquet Transverse-Field Ising Model
    L. Su, A. A. Clerk and I. Martin
    Phys. Rev. Res. 6, 013313 (2024).

  6. Stability via symmetry breaking in interacting driven systems
    A. Pocklington, A. A. Clerk
    arXiv:2307.16743 (2023).

  7. Exact solution of an infinite-range, non-collective dissipative transverse-field Ising model
    D. Roberts, A. A. Clerk
    Phys. Rev. Lett. 131, 190403 (2023)

  8. Exact results for a boundary-driven double spin chain and resource-efficient remote entanglement stabilization
    A. Lingenfelter, M. Yao, A. Pocklington, Y.-X. Wang, A. Irfan, W. Pfaff, A. A. Clerk
    arXiv:2307.09482 (2023).

  9. Dynamics and Phases of Nonunitary Floquet Transverse-Field Ising Model
    L. Su, A. A. Clerk and I. Martin
    arXiv:2306.07428 (2023).

  10. Third quantization of open quantum systems: new dissipative symmetries and connections to phase-space and Keldysh field theory formulations
    A. McDonald, A. A. Clerk
    Phys. Rev. Res. 5, 033107 (2023).

  11. Squeezed superradiance enables robust entanglement-enhanced metrology even with highly imperfect readout
    M. Koppenhofer, P. Groszkowski, A. A. Clerk
    Phys. Rev. Lett 131, 060802 (2023).

  12. On the stability of dissipatively-prepared Mott insulators of photons
    O. Scarlatella, A. A. Clerk, M. Schiro
    Phys. Rev. Res. 6, 013033 (2024) .

  13. Anomalously large relaxation times in dissipative lattice models beyond the non-Hermitian skin effect
    G. Lee, A. McDonald and A. A. Clerk
    Phys. Rev. B 108, 064311 (2023).

  14. Dissipative Pairing Interactions: Quantum Instabilities, Topological Light, and Volume-Law Entanglement
    A. Pocklington, Y.-X. Wang and A. A. Clerk
    Phys. Rev. Lett. 130, 123602 (2023) (Editor's Suggestion).

  15. Competition between two-photon driving, dissipation and interactions in bosonic lattice models: an exact solution
    D. Roberts, A. A. Clerk
    Phys. Rev. Lett. 130, 063601 (2023)

  16. Simple master equations for describing driven systems subject to classical non-Markovian noise
    P. Groszkowski, A. Seif, J. Koch and A. A. Clerk
    Quantum 7, 972 (2023)

  17. Quantum nonreciprocal interactions via dissipative gauge symmetry
    Y.-X. Wang and A. A. Clerk
    arXiv:2203.09392 (2022).

  18. Introduction to quantum non-reciprocal interactions: from non-Hermitian Hamiltonians to quantum master equations and quantum feedforward schemes
    To appear in "Quantum Information Machines; Lecture Notes of the Les Houches Summer School 2019"
    A. A. Clerk
    SciPost Phys. Lect. Notes 44 (2022).

  19. Reservoir-engineered spin squeezing: macroscopic even-odd effects and hybrid-systems implementations
    P. Groszkowski, M. Koppenhofer, H.-K. Lau and A. A. Clerk
    Phys. Rev. X 12, 011015 (2022).

  20. Exact solutions of interacting dissipative systems via weak symmetries
    A. McDonald and A. A. Clerk
    Phys. Rev. Lett. 128, 033602 (2022).

  21. Nonequilibrium stationary states of quantum non-Hermitian lattice models
    A. McDonald, R. Hanai and A. A. Clerk
    Phys. Rev. B 105, 064302 (2022) (Editors' Suggestion).

  22. Distinguishing between Quantum and Classical Markovian Dephasing Dissipation
    A. Seif, Y.-X. Wang, and A. A. Clerk
    Phys. Rev. Lett 128, 070402 (2022).

  23. Stabilizing two-qubit entanglement by mimicking a squeezed environment
    L. C. G. Govia, A. Lingenfelter and A. A. Clerk
    Phys. Rev. Research 4, 023010 (2022).

  24. Stabilizing volume-law entangled states of fermions and qubits using local dissipation
    A. Pocklington, Y.-X. Wang, Y. Yanay and A. A. Clerk
    Phys. Rev. B 105, L140301 (2022) (Letter)

  25. Intrinsic mechanisms for drive-dependent Purcell decay in superconducting quantum circuits
    R. Hanai, A. McDonald and A. A. Clerk
    Phys. Rev. Research 3, 043228 (2021).

  26. Dynamical Mean-Field Theory for Open Markovian Quantum Many Body Systems
    O. Scarlatella, A. A. Clerk, R. Fazio, M. Schiro
    Phys. Rev. X 11, 031018 (2021).

  27. Hidden time-reversal symmetry, quantum detailed balance and exact solutions of driven-dissipative quantum systems
    D. Roberts, A. Lingenfelter and A. A. Clerk
    PRX Quantum 2, 020336 (2021).

  28. A simple approach to characterizing band topology in bosonic pairing Hamiltonians
    G. Chaudhary, M. Levin and A. A. Clerk
    Phys. Rev. B 103, 214306 (2021).

  29. Unconditional Fock state generation using arbitrarily weak photonic nonlinearities
    A. Lingenfelter, D. Roberts and A. A. Clerk
    Science Adv. 7, 48 (2021).

  30. Dissipative stabilization of squeezing beyond 3 dB in a microwave mode
    R. Dassonneville, R. Assouly, T. Peronnin, A. A. Clerk, A. Bienfait and B. Huard
    PRX Quantum 2, 020323 (2021).

  31. Non-dispersing Wave Packets in Lattice Floquet Systems
    Z. Huang, A. A. Clerk and I. Martin
    Phys. Rev. Lett. 126, 100601 (2021).

  32. Heisenberg-limited spin-squeezing via bosonic parametric driving
    P. Groszkowski, H.-K. Lau, C. Leroux, L. C. G. Govia and A. A. Clerk
    Phys. Rev. Lett. 125, 203601 (2020)

  33. Exponentially-enhanced quantum sensing with non-Hermitian lattice dynamics
    A. McDonald and A. A. Clerk
    Nature Comm. 11, 5382 (2020)

  34. Reservoir engineering with localized dissipation: dynamics and pre-thermalization
    Y. Yanay and A. A. Clerk
    Phys. Rev. Research 2, 023177 (2020)

  35. Driven-dissipative Quantum Kerr Resonators: New Exact Solutions, Photon Blockade and Quantum Bistability
    D. Roberts and A. A. Clerk
    Phys. Rev. X 10, 021022 (2020).

  36. Non-Hermitian dynamics without dissipation in quantum systems
    Y. Wang and A. A. Clerk
    Phys. Rev. A 99, 063834 (2019)

  37. Spectral functions and negative density of states of a driven-dissipative nonlinear quantum resonator
    O. Scarlatella, A. A. Clerk, M. Schiro
    New J. Phys. 21, 043040 (2019).

  38. Phase-dependent chiral transport and effective non-Hermitian dynamics in a bosonic Kitaev-Majorana chain
    A. McDonald, T. Pereg-Barnea and A. A. Clerk
    Phys. Rev. X 8, 041031 (2018).

  39. Reservoir engineering of bosonic lattices using chiral symmetry and localized dissipation
    Y. Yanay and A. A. Clerk
    Phys. Rev. A 98, 043615 (2018).

  40. Dissipative stabilization of entangled cat states using a driven Bose-Hubbard dimer
    M. Mamaev, L. C. G. Govia, A. A. Clerk
    Quantum 2, 58 (2018).

  41. Topological quantum fluctuations and travelling wave amplifiers
    V. Peano, M. Houde, F. Marquardt, A. A. Clerk
    Phys. Rev. X 6, 041026 (2016)

  42. Enhanced nonlinear interactions in quantum optomechanics via mechanical amplification
    M. A. Lemonde, N. Didier and A. A. Clerk
    Nature Commun. 7, 11338 (2016).

  43. Topological phase transitions and chiral inelastic transport induced by the squeezing of light
    V. Peano, M. Houde, C. Brendel, F. Marquardt, A. A. Clerk
    Nature Commun. 7, 10779 (2016).

  44. Quantum Kibble-Zurek physics in the presence of spatially correlated dissipation
    P. Nalbach, S. Vishveshwara and A. A. Clerk
    Phys. Rev. B 92, 014306 (2015)

  45. Real photons from vacuum fluctuations in optomechanics: the role of polariton interactions
    M.-A. Lemonde and A. A. Clerk
    Phys. Rev. A 91, 033836 (2015)
    (selected as an "Editor's suggestion")

  46. Antibunching and unconventional photon blockade with Gaussian squeezed states
    M.-A. Lemonde, N. Didier and A. A. Clerk
    Phys. Rev. A 90, 063824 (2014)

  47. Photon propagation in a one-dimensional optomechanical lattice
    W. Chen and A. A. Clerk
    Phys. Rev. A 89, 033854 (2014)

  48. Nonlinear interaction effects in a strongly driven optomechanical cavity
    M.-A. Lemonde, N. Didier and A. A. Clerk
    Phys. Rev. Lett. 111, 053602 (2013).

Superconducting circuits / cQED

  1. Universal Control in Bosonic Systems with Weak Kerr Nonlinearities
    M. Yuan, A. Seif, A. Lingenfelter, D. I. Schuster, A. A. Clerk, L. Jiang
    arXiv:2312.15783 (2023).

  2. Entanglement phase transition due to reciprocity breaking without measurement or post-selection
    G. Lee, T. Jin, Y.-X. Wang, A. McDonald, A. A. Clerk
    PRX Quantum 5, 010313 (2024).

  3. Dispersive Non-reciprocity between a Qubit and a Cavity
    Y.-Y. Wang, Y.-X. Wang, S. van Geldern. T. Connolly, A. A. Clerk, C. Wang
    arXiv:2307.05298 (2023).

  4. Exact results for a boundary-driven double spin chain and resource-efficient remote entanglement stabilization
    A. Lingenfelter, M. Yao, A. Pocklington, Y.-X. Wang, A. Irfan, W. Pfaff, A. A. Clerk
    arXiv:2307.09482 (2023).

  5. On the stability of dissipatively-prepared Mott insulators of photons
    O. Scarlatella, A. A. Clerk, M. Schiro
    Phys. Rev. Res. 6, 013033 (2024) .

  6. Autonomous quantum error correction and fault-tolerant quantum computation with squeezed cat qubits
    Q. Xu, G. Zheng, Y.-X. Wang, P. Zoller, A. A. Clerk and L. Jiang
    npj Quantum Inf. 9, 78 (2023).

  7. Competition between two-photon driving, dissipation and interactions in bosonic lattice models: an exact solution
    D. Roberts, A. A. Clerk
    Phys. Rev. Lett. 130, 063601 (2023)

  8. Fast and Robust Geometric Two-Qubit Gates for Superconducting Qubits and Beyond
    F. Setiawan, P. Groszkowski, A. A. Clerk
    Phys. Rev. Applied 19, 034071 (2023).

  9. Quantum-limited amplification without instability
    A. Metelmann, O. Lanes, T-Z. Chien, A. McDonald, M. Hatridge and A. A. Clerk
    arXiv:2208.00024 (2022).

  10. Simple master equations for describing driven systems subject to classical non-Markovian noise
    P. Groszkowski, A. Seif, J. Koch and A. A. Clerk
    Quantum 7, 972 (2023)

  11. Quantum nonreciprocal interactions via dissipative gauge symmetry
    Y.-X. Wang and A. A. Clerk
    arXiv:2203.09392 (2022).

  12. Stabilizing two-qubit entanglement by mimicking a squeezed environment
    L. C. G. Govia, A. Lingenfelter and A. A. Clerk
    Phys. Rev. Research 4, 023010 (2022).

  13. Stabilizing volume-law entangled states of fermions and qubits using local dissipation
    A. Pocklington, Y.-X. Wang, Y. Yanay and A. A. Clerk
    Phys. Rev. B 105, L140301 (2022) (Letter)

  14. Intrinsic mechanisms for drive-dependent Purcell decay in superconducting quantum circuits
    R. Hanai, A. McDonald and A. A. Clerk
    Phys. Rev. Research 3, 043228 (2021).

  15. Low-Loss Ferrite Circulator as a Tunable Chiral Quantum System
    Y.-Y. Wang, S. van Geldern, T. Connolly, Y.-X. Wang, A. Shilcusky, A. McDonald, A. A. Clerk and C. Wang
    Phys. Rev. App. 16, 064066 (2021).

  16. Hidden time-reversal symmetry, quantum detailed balance and exact solutions of driven-dissipative quantum systems
    D. Roberts, A. Lingenfelter and A. A. Clerk
    PRX Quantum 2, 020336 (2021).

  17. Unconditional Fock state generation using arbitrarily weak photonic nonlinearities
    A. Lingenfelter, D. Roberts and A. A. Clerk
    Science Adv. 7, 48 (2021).

  18. Dissipative stabilization of squeezing beyond 3 dB in a microwave mode
    R. Dassonneville, R. Assouly, T. Peronnin, A. A. Clerk, A. Bienfait and B. Huard
    PRX Quantum 2, 020323 (2021).

  19. Analytic Design of Accelerated Adiabatic Gates in Realistic Qubits: General Theory and Applications to Superconducting Circuits
    F. Setiawan, P. Groszkowski, H. Ribeiro and A. A. Clerk
    PRX Quantum 2, 030306 (2021) (selected as an Editor's selection).

  20. Engineering fast high-fidelity quantum operations with constrained interactions
    T. F. Roque, A. A. Clerk and H. Ribeiro
    npj Quantun Inf. 7, 28 (2021).

  21. Positive- and negative-frequency noise from an ensemble of two-level fluctuators
    X. You, A. A. Clerk and J. Koch
    Phys. Rev. Res. 3, 013045 (2021).

  22. Non-dispersing Wave Packets in Lattice Floquet Systems
    Z. Huang, A. A. Clerk and I. Martin
    Phys. Rev. Lett. 126, 100601 (2021).

  23. Exponentially-enhanced quantum sensing with non-Hermitian lattice dynamics
    A. McDonald and A. A. Clerk
    Nature Comm. 11, 5382 (2020)

  24. Spectral characterization of non-Gaussian quantum noise: Keldysh approach and application to photon shot noise
    Y. Wang and A. A. Clerk
    Phys. Rev. Research 2, 033196 (2020).

  25. Hybrid quantum systems with circuit quantum electrodynamics
    A. A. Clerk, K. W. Lehnert, P. Bertet, J. R. Petta and Y. Nakamura
    Nat. Phys. (2020)

  26. Driven-dissipative Quantum Kerr Resonators: New Exact Solutions, Photon Blockade and Quantum Bistability
    D. Roberts and A. A. Clerk
    Phys. Rev. X 10, 021022 (2020).

  27. Accelerated adiabatic quantum gates: optimizing speed versus robustness
    H. Ribeiro and A. A. Clerk
    Phys. Rev. A 100, 032323 (2019)

  28. Loss asymmetries in quantum traveling-wave parametric amplifiers
    M. Houde, L. C. G. Govia and A. A. Clerk
    Phys. Rev. Applied 12, 034054 (2019)

  29. Perfect bosonic quantum state transfer using imperfect transducers and interference
    H.-K. Lau and A. A. Clerk
    npj Quantum Inf. 5, 31 (2019).

  30. Spectral functions and negative density of states of a driven-dissipative nonlinear quantum resonator
    O. Scarlatella, A. A. Clerk, M. Schiro
    New J. Phys. 21, 043040 (2019).

  31. High-efficiency measurement of an artificial atom embedded in a parametric amplifier
    A. Eddins, J.M. Kreikebaum, D.M. Toyli, E.M. Levenson-Falk, A. Dove, W.P. Livingston, B.A. Levitan, L.C.G. Govia, A.A. Clerk, I. Siddiqi
    Phys. Rev. X 9, 011004 (2019).

  32. Phase-dependent chiral transport and effective non-Hermitian dynamics in a bosonic Kitaev-Majorana chain
    A. McDonald, T. Pereg-Barnea and A. A. Clerk
    Phys. Rev. X 8, 041031 (2018).

  33. Enhancing cavity QED via anti-squeezing: synthetic ultra-strong coupling
    C. Leroux, L. C. G. Govia, A. A. Clerk
    Phys. Rev. Lett. 120, 093602 (2018).

  34. Quantitative tomography for continuous variable quantum systems
    O. Landon-Cardinal, L. C. G. Govia, and A. A. Clerk
    Phys. Rev. Lett. 120, 090501 (2018)

  35. Stroboscopic qubit measurement with squeezed illumination
    A. Eddins, S. Schreppler, D. M. Toyli, L. S. Martin, S. Hacohen-Gourgy, L. C. G. Govia, H. Ribeiro, A. A. Clerk, I. Siddiqi
    Phys. Rev. Lett. 120, 040505 (2018).

  36. Dissipative stabilization of entangled cat states using a driven Bose-Hubbard dimer
    M. Mamaev, L. C. G. Govia, A. A. Clerk
    Quantum 2, 58 (2018).

  37. Reservoir engineering of bosonic lattices using chiral symmetry and localized dissipation
    Y. Yanay and A. A. Clerk
    arXiv:1710.10318 (2017).

  38. Simple variational ground state and pure cat state generation in the quantum Rabi model
    C. Leroux, L. C. G. Govia and A. A. Clerk
    Phys. Rev. A 96, 043834 (2017).

  39. Systematic Magnus-based Approach for Suppressing Leakage and Nonadiabatic Errors in Quantum dynamics
    H. Ribeiro, A. Baksic, A. A. Clerk
    Phys. Rev. X 7, 011021 (2017)

  40. Enhanced qubit readout using locally generated squeezing and inbuilt Purcell-decay suppression
    L. C. G. Govia, A. A. Clerk
    New J. Phys. 19, 023044 (2017)

  41. Non-reciprocal quantum interactions and devices via autonomous feed-forward
    A. Metelmann, A. A. Clerk
    Phys. Rev. A 95, 013837 (2017)

  42. Topological quantum fluctuations and travelling wave amplifiers
    V. Peano, M. Houde, F. Marquardt, A. A. Clerk
    Phys. Rev. X 6, 041026 (2016)

  43. Fock-state stabilization and emission in superconducting circuits using dc-biased Josephson junctions
    J.-R. Souquet and A. A. Clerk
    Phys. Rev. A (Rapids) 93, 060301 (2016)

  44. Quantum heat engine based on photon-assisted Cooper pair tunneling
    P. Hofer, J.-R. Souquet and A. A. Clerk
    Phys. Rev. B (Rapids) 93, 041448 (2016)
    (selected as an Editor's Suggestion)

  45. Topological phase transitions and chiral inelastic transport induced by the squeezing of light
    V. Peano, M. Houde, C. Brendel, F. Marquardt, A. A. Clerk
    Nature Commun. 7, 10779 (2016).

  46. Heisenberg-limited qubit readout with two-mode squeezed light
    N. Didier, A. Kamal, W. D. Oliver, A. Blais and A. A. Clerk
    Phys. Rev. Lett. 115, 093604 (2015)

  47. Broadband parametric amplification with impedance engineering: Beyond the gain-bandwidth product
    T. Roy, S. Kundu, M. Chand, A. M. Vadiraj, A. Ranadive, N. Nehra, M. P. Patankar, J. Aumentado, A. A. Clerk and R. Vijay
    Appl. Phys. Lett. 107, 262601 (2015)

  48. Nonreciprocal Photon Transmission and Amplification via Reservoir Engineering
    A. Metelmann and A. A. Clerk
    Phys. Rev. X 5, 021025 (2015)

  49. Photon-assisted tunneling with non-classical light
    J.-R. Souquet, M.J. Woolley, J. Gabelli, P. Simon, A. A. Clerk
    Nature Commun. 5, 5562 (2014)

  50. Large gain quantum-limited qubit measurement using a two-mode nonlinear cavity
    S. Khan, R. Vijay, I. Siddiqi, A. A. Clerk
    New J. Phys. 16, 113032 (2014)

  51. Antibunching and unconventional photon blockade with Gaussian squeezed states
    M.-A. Lemonde, N. Didier and A. A. Clerk
    Phys. Rev. A 90, 063824 (2014)

  52. Quantum-limited amplification via reservoir engineering
    A. Metelmann and A. A. Clerk
    Phys. Rev. Lett. 112, 133904 (2014)

  53. Quantum noise and quantum measurement (Les Houches Lecture Notes)
    A. A. Clerk, in Quantum Machines: Measurement and Control of Engineered Quantum Systems
    eds. Michel Devoret, Benjamin Huard, Robert Schoelkopf, and Leticia F. Cugliandolo
    Oxford University Press 2014
    (pdf of draft)

  54. Arbitrarily large steady-state bosonic squeezing via dissipation
    A. Kronwald, F. Marquardt and A. A. Clerk
    Phys. Rev. A 88, 063833 (2013)

  55. Weak qubit measurement with a nonlinear cavity: beyond perturbation theory
    C. Laflamme and A. A. Clerk
    Phys. Rev. Lett. 109, 123602 (2012)

  56. Full counting statistics of energy fluctuations in a driven quantum resonator
    A. A. Clerk
    Phys. Rev. A 84, 043824 (2011)

  57. Quantum limited amplification with a nonlinear cavity detector
    C. Laflamme and A. A. Clerk
    Phys. Rev. A 83, 033803 (2011)

  58. Introduction to Quantum Noise, Measurement and Amplification
    A. A. Clerk, M. H. Devoret, S. M. Girvin, F. Marquardt and R. J. Schoelkopf
    Rev. Mod. Phys. 82, 1155 (2010)
    (NB: substantial improvements over original arXiv version; linked version includes supplementary appendices)

  59. Using a qubit to measure photon number statistics of a driven, thermal oscillator
    A. A. Clerk and D. Wahyu Utami
    Phys. Rev. A 75, 042302 (2007)

  60. Back-action in Strongly Interacting Quantum Detectors
    A. A. Clerk
    Phys. Rev. Lett. 96, 056801 (2006)

  61. Resonant Cooper-Pair Tunneling: Counting Statistics and Frequency-Dependent Noise
    A. A. Clerk
    New Directions in Mesoscopic Physics, R. Fazio and Y. Imry, eds., (Kluwer, Dordrecht, 2003). [cond-mat/0301277]

  62. Qubits as Spectrometers of Quantum Noise
    R. S. Schoelkopf, A. A. Clerk, S. M. Girvin, K. W. Lehnert and M. Devoret
    Quantum Noise in Mesoscopic Physics, Y.V. Nazarov, ed. (Kluwer, Dordrecht, 2003). [cond-mat/0210247]

  63. Resonant Cooper Pair Tunneling: Quantum Noise and Quantum Meaurement
    A. A. Clerk, S. M. Girvin, A. K. Nguyen and A. D. Stone
    Phys. Rev. Lett. 89, 176804 (2002)

Quantum Sensing / Measurement / Amplification

  1. Uncovering measurement-induced entanglement via directional adaptive dynamics and incomplete information
    Y.-X. Wang, A. Seif and A. A. Clerk
    arXiv:2310.01338 (2023).

  2. When does a one-axis-twist-untwist quantum sensing protocol work?
    M. Koppenhofer, A. A. Clerk
    arXiv:2309.02291 (2023).

  3. Squeezed superradiance enables robust entanglement-enhanced metrology even with highly imperfect readout
    M. Koppenhofer, P. Groszkowski, A. A. Clerk
    Phys. Rev. Lett 131, 060802 (2023).

  4. Detecting spin bath polarization with quantum quench phase shifts of single spins in diamond
    P. C. Jerger, Y.-X. Wang, M. Onizhuk, B. S. Soloway, M. T. Solomon, C. Egerstrom, F. J. Heremnns, G. Galli, A. A. Clerk, D. Awschalom
    Phys. Rev. X Quantum 4, 040315 (2023).

  5. Preparation of metrological states in dipolar-interacting spin systems
    T.-X. Zheng, A. Li, J. Rosen, S. Zhou, M. Koppenhofer, Z. Ma, F. T. Chong, A. A. Clerk, L. Jiang and P. C. Maurer
    npj Quantum Inf. 8, 150 (2022).

  6. Single-Spin Readout and Quantum Sensing using Optomechanically-Induced Transparency
    M. Koppenhofer, C. Padgett, J. V. Cady, V. Dharod, H. Oh, A. C. Bleszynski-Jayich and A. A. Clerk
    Phys. Rev. Lett. 130, 093603 (2023).

  7. Surpassing spectator qubits with photonic modes and continuous measurement for Heisenberg-limited noise mitigation
    A. Lingenfelter and A. A. Clerk
    npj Quantum Inf. 9, 81 (2023).

  8. Quantum-limited amplification without instability
    A. Metelmann, O. Lanes, T-Z. Chien, A. McDonald, M. Hatridge and A. A. Clerk
    arXiv:2208.00024 (2022).

  9. Reservoir-engineered spin squeezing: macroscopic even-odd effects and hybrid-systems implementations
    P. Groszkowski, M. Koppenhofer, H.-K. Lau and A. A. Clerk
    Phys. Rev. X 12, 011015 (2022).

  10. Dissipative superradiant spin amplifier for enhanced quantum sensing
    M. Koppenhofer, P. Groszkowski, H.-K. Lau and A. A. Clerk
    PRX Quantum 3, 030330 (2022) (Editor's Suggestion).

  11. Intrinsic and induced quantum quenches for enhancing qubit-based quantum noise spectroscopy
    Y.-X. Wang and A. A. Clerk
    Nature Commun. 12, 6528 (2021).

  12. Exponentially-enhanced quantum sensing with non-Hermitian lattice dynamics
    A. McDonald and A. A. Clerk
    Nature Comm. 11, 5382 (2020)

  13. Heisenberg-limited spin-squeezing via bosonic parametric driving
    P. Groszkowski, H.-K. Lau, C. Leroux, L. C. G. Govia and A. A. Clerk
    Phys. Rev. Lett. 125, 203601 (2020)

  14. Spectral characterization of non-Gaussian quantum noise: Keldysh approach and application to photon shot noise
    Y. Wang and A. A. Clerk
    Phys. Rev. Research 2, 033196 (2020).

  15. Non-Hermitian quantum sensing: fundamental limits and non-reciprocal approaches
    H.-K. Lau and A. A. Clerk
    Nature Commun. 9, 4320 (2018).

  16. High-efficiency measurement of an artificial atom embedded in a parametric amplifier
    A. Eddins, J.M. Kreikebaum, D.M. Toyli, E.M. Levenson-Falk, A. Dove, W.P. Livingston, B.A. Levitan, L.C.G. Govia, A.A. Clerk, I. Siddiqi
    Phys. Rev. X 9, 011004 (2019).

  17. Phase-dependent chiral transport and effective non-Hermitian dynamics in a bosonic Kitaev-Majorana chain
    A. McDonald, T. Pereg-Barnea and A. A. Clerk
    Phys. Rev. X 8, 041031 (2018).

  18. Quantitative tomography for continuous variable quantum systems
    O. Landon-Cardinal, L. C. G. Govia, and A. A. Clerk
    Phys. Rev. Lett. 120, 090501 (2018)

  19. Stroboscopic qubit measurement with squeezed illumination
    A. Eddins, S. Schreppler, D. M. Toyli, L. S. Martin, S. Hacohen-Gourgy, L. C. G. Govia, H. Ribeiro, A. A. Clerk, I. Siddiqi
    Phys. Rev. Lett. 120, 040505 (2018).

  20. Enhanced qubit readout using locally generated squeezing and inbuilt Purcell-decay suppression
    L. C. G. Govia, A. A. Clerk
    New J. Phys. 19, 023044 (2017)

  21. Shelving-style QND phonon-number detection in quantum optomechanics
    Y. Yanay, A. A. Clerk
    New J. Phys., advance online publication (2017)

  22. Non-reciprocal quantum interactions and devices via autonomous feed-forward
    A. Metelmann, A. A. Clerk
    Phys. Rev. A 95, 013837 (2017)

  23. Topological quantum fluctuations and travelling wave amplifiers
    V. Peano, M. Houde, F. Marquardt, A. A. Clerk
    Phys. Rev. X 6, 041026 (2016)

  24. Negative full counting statistics arise from interference
    P. Hofer and A. A. Clerk
    Phys. Rev. Lett. 116, 013603 (2016)

  25. Heisenberg-limited qubit readout with two-mode squeezed light
    N. Didier, A. Kamal, W. D. Oliver, A. Blais and A. A. Clerk
    Phys. Rev. Lett. 115, 093604 (2015)

  26. Nonreciprocal Photon Transmission and Amplification via Reservoir Engineering
    A. Metelmann and A. A. Clerk
    Phys. Rev. X 5, 021025 (2015)

  27. Broadband parametric amplification with impedance engineering: Beyond the gain-bandwidth product
    T. Roy, S. Kundu, M. Chand, A. M. Vadiraj, A. Ranadive, N. Nehra, M. P. Patankar, J. Aumentado, A. A. Clerk and R. Vijay
    Appl. Phys. Lett. 107, 262601 (2015)

  28. Large gain quantum-limited qubit measurement using a two-mode nonlinear cavity
    S. Khan, R. Vijay, I. Siddiqi, A. A. Clerk
    New J. Phys. 16, 113032 (2014)

  29. Mechanically Detecting and Avoiding the Quantum Fluctuations of a Microwave Field
    J. Suh, A. J. Weinstein, C. U. Lei, E. E. Wollman, S. K. Steinke, P. Meystre, A. A. Clerk, K. C. Schwab
    Science 344, 1262 (2014)
    (see also perspective article by D. Bouwmeester, "The quantum nondemolition derby" )

  30. Quantum-limited amplification via reservoir engineering
    A. Metelmann and A. A. Clerk
    Phys. Rev. Lett. 112, 133904 (2014)

  31. Quantum noise and quantum measurement (Les Houches Lecture Notes)
    A. A. Clerk, in Quantum Machines: Measurement and Control of Engineered Quantum Systems
    eds. Michel Devoret, Benjamin Huard, Robert Schoelkopf, and Leticia F. Cugliandolo
    Oxford University Press 2014
    (pdf of draft)

  32. Dissipative optomechanical squeezing of light
    A. Kronwald, F. Marquardt and A. A. Clerk
    New J. Phys. 16, 063058 (2014)

  33. Detuned mechanical parametric amplification as a quantum non-demolition measurement
    A. Szorkovszky, A. A. Clerk, A. C. Doherty and W. P. Bowen
    New. J. Phys. 16, 043023 (2014)

  34. Two-mode back-action-evading measurements in cavity optomechanics
    M. Woolley and A. A. Clerk
    Phys. Rev. A 87, 063846 (2013).

  35. Weak qubit measurement with a nonlinear cavity: beyond perturbation theory
    C. Laflamme and A. A. Clerk
    Phys. Rev. Lett. 109, 123602 (2012)

  36. Quantum interference and phonon-mediated back-action in lateral quantum-dot circuits
    G. Granger, D. Taubert, C. E. Young, L. Gaudreau, A. Kam, S. A. Studenikin, P. Zawadzki, D. Harbusch, D. Schuh, W. Wegscheider, Z. R. Wasilewski, A. A. Clerk, S. Ludwig and A. S. Sachrajda
    Nature Phys. 8, 522 (2012)

  37. Full counting statistics of energy fluctuations in a driven quantum resonator
    A. A. Clerk
    Phys. Rev. A 84, 043824 (2011)

  38. Quantum limited amplification with a nonlinear cavity detector
    C. Laflamme and A. A. Clerk
    Phys. Rev. A 83, 033803 (2011)

  39. Scattering approach to backaction in coherent nanoelectromechanical systems
    S. D. Bennett, J. Maassen and A. A. Clerk
    Phys. Rev. Lett. 105, 217206 (2010) (includes erratum)

  40. Quantum Measurement of Phonon Shot Noise
    A. A. Clerk, F. Marquardt and J. G. E. Harris
    Phys. Rev. Lett. 104, 213603 (2010)
    (selected as an "Editor's Suggestion" by the editors of PRL)

  41. Inelastic Backaction due to Quantum Point Contact Charge Fluctuations
    C. E. Young and A. A. Clerk
    Phys. Rev. Lett. 104, 186803 (2010)

  42. Introduction to Quantum Noise, Measurement and Amplification
    A. A. Clerk, M. H. Devoret, S. M. Girvin, F. Marquardt and R. J. Schoelkopf
    Rev. Mod. Phys. 82, 1155 (2010)
    (NB: substantial improvements over original arXiv version; linked version includes supplementary appendices)

  43. Back-action evasion and squeezing of a mechanical resonator using a cavity detector
    A. A. Clerk, F. Marquardt and K. Jacobs
    New J. Phys. 10, 095010 (2008)

  44. Using a qubit to measure photon number statistics of a driven, thermal oscillator
    A. A. Clerk and D. Wahyu Utami
    Phys. Rev. A 75, 042302 (2007)

  45. Back-action in Strongly Interacting Quantum Detectors
    A. A. Clerk
    Phys. Rev. Lett. 96, 056801 (2006)

  46. Quantum nano-electromechanics with electrons, quasiparticles and Cooper-pairs: Effective bath descriptions and strong-feedback effects
    A. A. Clerk and S. Bennett
    New J. Phys 7, 238 (2005) (special focus issue on NEMS)

  47. Single-electron Transistor Backaction on the Single-electron Box
    B. A. Turek, K. W. Lehnert, A. A. Clerk, D. Gunnarsson, K. Bladh, P. Delsing, and R. J. Schoelkopf
    Phys. Rev. B 71, 193304 (2005)

  48. Quantum-Limited Position Detection and Amplification: A Linear Response Perspective
    A. A. Clerk
    Phys. Rev. B 70, 245306 (2004)

  49. Noise and Measurement Efficiency of a Partially Coherent Mesoscopic Detector
    A. A. Clerk and A. D. Stone
    Phys. Rev. B 69, 245303 (2004)

  50. Quantum Measurement and Information in Mesoscopic Detectors
    A. A. Clerk, S. M. Girvin and A. D. Stone
    Phys. Rev. B 67, 165324 (2003)

  51. Resonant Cooper-Pair Tunneling: Counting Statistics and Frequency-Dependent Noise
    A. A. Clerk
    New Directions in Mesoscopic Physics, R. Fazio and Y. Imry, eds., (Kluwer, Dordrecht, 2003). [cond-mat/0301277]

  52. Qubits as Spectrometers of Quantum Noise
    R. S. Schoelkopf, A. A. Clerk, S. M. Girvin, K. W. Lehnert and M. Devoret
    Quantum Noise in Mesoscopic Physics, Y.V. Nazarov, ed. (Kluwer, Dordrecht, 2003). [cond-mat/0210247]

  53. Resonant Cooper Pair Tunneling: Quantum Noise and Quantum Meaurement
    A. A. Clerk, S. M. Girvin, A. K. Nguyen and A. D. Stone
    Phys. Rev. Lett. 89, 176804 (2002)

Quantum dynamics and control

  1. Universal Control in Bosonic Systems with Weak Kerr Nonlinearities
    M. Yuan, A. Seif, A. Lingenfelter, D. I. Schuster, A. A. Clerk, L. Jiang
    arXiv:2312.15783 (2023).

  2. Surpassing spectator qubits with photonic modes and continuous measurement for Heisenberg-limited noise mitigation
    A. Lingenfelter and A. A. Clerk
    npj Quantum Inf. 9, 81 (2023).

  3. Autonomous quantum error correction and fault-tolerant quantum computation with squeezed cat qubits
    Q. Xu, G. Zheng, Y.-X. Wang, P. Zoller, A. A. Clerk and L. Jiang
    npj Quantum Inf. 9, 78 (2023).

  4. Fast and Robust Geometric Two-Qubit Gates for Superconducting Qubits and Beyond
    F. Setiawan, P. Groszkowski, A. A. Clerk
    Phys. Rev. Applied 19, 034071 (2023).

  5. Efficient in-situ generation of photon-memory entanglement in a nonlinear cavity
    H.-K. Lau, H. Qiao, A. A. Clerk and T. Zhong
    arXiv:2208.00886 (2022).

  6. Quantum nonreciprocal interactions via dissipative gauge symmetry
    Y.-X. Wang, C. Wang and A. A. Clerk
    Phys. Rev. X Quantum, 4, 010306 (2023).

  7. Engineering fast high-fidelity quantum operations with constrained interactions
    T. F. Roque, A. A. Clerk and H. Ribeiro
    npj Quantun Inf. 7, 28 (2021).

  8. Accelerated adiabatic quantum gates: optimizing speed versus robustness
    H. Ribeiro and A. A. Clerk
    Phys. Rev. A 100, 032323 (2019)

  9. Non-Hermitian dynamics without dissipation in quantum systems
    Y. Wang and A. A. Clerk
    Phys. Rev. A 99, 063834 (2019)

  10. Initialisation of single spin dressed states using shortcuts to adiabaticity
    J. Kolbl, A. Barfuss, M. Kaspercyzk, L. Thiel, A. A. Clerk, H. Ribeiro, P. Maletinsky
    Phys. Rev. Lett. 122, 090502 (2019) (Editor's suggestion)

  11. Perfect bosonic quantum state transfer using imperfect transducers and interference
    H.-K. Lau and A. A. Clerk
    npj Quantum Inf. 5, 31 (2019).

  12. Systematic Magnus-based Approach for Suppressing Leakage and Nonadiabatic Errors in Quantum dynamics
    H. Ribeiro, A. Baksic, A. A. Clerk
    Phys. Rev. X 7, 011021 (2017)

  13. Accelerated quantum control using superadiabatic dynamics in a solid-state lambda system
    B. B. Zhou, A. Baksic, H. Ribeiro, C. G. Yale, F. J. Heremans, P. C. Jerger, A. Auer, G. Burkard, A. A. Clerk, D. D. Awschalom
    Nature Phys., doi:10.1038/nphys3967 (2016)

  14. Speeding up adiabatic quantum state transfer by using dressed states
    A. Baksic, H. Ribeiro and A. A. Clerk
    Phys. Rev. Lett. 116, 230503(2016)

  15. Quantum Kibble-Zurek physics in the presence of spatially correlated dissipation
    P. Nalbach, S. Vishveshwara and A. A. Clerk
    Phys. Rev. B 92, 014306 (2015)

Quantum Optomechanics

  1. Single-Spin Readout and Quantum Sensing using Optomechanically-Induced Transparency
    M. Koppenhofer, C. Padgett, J. V. Cady, V. Dharod, H. Oh, A. C. Bleszynski-Jayich and A. A. Clerk
    Phys. Rev. Lett. 130, 093603 (2023).

  2. Asymmetry-Based Quantum Backaction Suppression in Quadratic Optomechanics
    V. Dumont, H.K. Lau, A. A. Clerk and J. Sankey
    Phys. Rev. Lett. 129, 063604 (2022)

  3. Ground state cooling and high-fidelity quantum transduction via parametrically-driven bad-cavity optomechanics
    H.-K. Lau and A. A. Clerk
    Phys. Rev. Lett 124, 103602 (2020).

  4. Perfect bosonic quantum state transfer using imperfect transducers and interference
    H.-K. Lau and A. A. Clerk
    npj Quantum Inf. 5, 31 (2019).

  5. Nonreciprocal control and cooling of phonon modes in an optomechanical system
    H. Xu, Luyao Jiang, A. A. Clerk & J. G. E. Harris
    Nature 568, 65-69 (2019).

  6. Stabilized entanglement of massive mechanical oscillators
    C. F. Ockeloen-Korppi, E. Damskagg, J.-M. Pirkkalainen, M. Asjad, A. A. Clerk, F. Massel, M. J. Woolley and M. A. Sillanpaa
    Nature 556, 478 (2018).
    (News and views by A. Armour)

  7. Reservoir engineering of bosonic lattices using chiral symmetry and localized dissipation
    Y. Yanay and A. A. Clerk
    arXiv:1710.10318 (2017).

  8. Generalized nonreciprocity in an optomechanical circuit via synthetic magnetism and reservoir engineering
    K. Fang, J. Luo, A. Metelmann, M. H. Matheny, F. Marquardt, A. A. Clerk, O. Painter
    Nature Phys. 13, 465 (2017)

  9. Shelving-style QND phonon-number detection in quantum optomechanics
    Y. Yanay, A. A. Clerk
    New J. Phys. 19, 033014 (2017)

  10. Non-reciprocal quantum interactions and devices via autonomous feed-forward
    A. Metelmann, A. A. Clerk
    Phys. Rev. A 95, 013837 (2017)

  11. Quantum back-action evading measurement of collective mechanical modes
    C. F. Ockeloen-Korppi, E. Damskagg, J.-M. Pirkkalainen, A. A. Clerk, M. J. Woolley, M. A. Sillanpaa
    Phys. Rev. Lett. 117, 140401 (2016)

  12. Optomechanics with two-photon driving
    B. A. Levitan, A. Metelmann, A. A. Clerk
    New J. Phys. 18, 093014 (2016)

  13. Quantum nondemolition measurement of a quantum squeezed state beyond the 3 dB limit
    C. U. Lei, A. J. Weinstein, J. Suh, E. E. Wollman, A. Kronwald, F. Marquardt, A. A. Clerk, K. C. Schwab
    Phys. Rev. Lett. 117, 100801 (2016)

  14. Enhanced nonlinear interactions in quantum optomechanics via mechanical amplification
    M. A. Lemonde, N. Didier and A. A. Clerk
    Nature Commun. 7, 11338 (2016).

  15. Speeding up adiabatic quantum state transfer by using dressed states
    A. Baksic, H. Ribeiro and A. A. Clerk
    Phys. Rev. Lett. 116, 230503(2016)

  16. Quantum backaction and noise interference in asymmetric two-cavity optomechanical systems
    Y. Yanay, J. C. Sankey, A. A. Clerk
    Phys. Rev. A (Rapids) 93, 063809 (2016)
    (selected as an Editor's Suggestion)

  17. Quantum squeezing of motion in a mechanical resonator
    E. E. Wollman, C. U. Lei, A. J. Weinstein, J. Suh, A. Kronwald, F. Marquardt, A. A. Clerk, K. C. Schwab
    Science 349, 952 (2015)

  18. Nonreciprocal Photon Transmission and Amplification via Reservoir Engineering
    A. Metelmann and A. A. Clerk
    Phys. Rev. X 5, 021025 (2015)

  19. Real photons from vacuum fluctuations in optomechanics: the role of polariton interactions
    M.-A. Lemonde and A. A. Clerk
    Phys. Rev. A 91, 033836 (2015)
    (selected as an "Editor's suggestion")

  20. Bipartite and tripartite output entanglement in 3-mode optomechanical systems
    Y. D. Wang, S. Chesi and A. A. Clerk
    Phys. Rev. A 91, 013807 (2015)

  21. Antibunching and unconventional photon blockade with Gaussian squeezed states
    M.-A. Lemonde, N. Didier and A. A. Clerk
    Phys. Rev. A 90, 063824 (2014)

  22. Observation and interpretation of motional sideband asymmetry in a quantum electro-mechanical device
    A. J. Weinstein, C. U. Lei, E. E. Wollman, J. Suh, A. Metelmann, A. A. Clerk, K. C. Schwab
    Phys. Rev. X 4, 041003 (2014)

  23. Mechanically Detecting and Avoiding the Quantum Fluctuations of a Microwave Field
    J. Suh, A. J. Weinstein, C. U. Lei, E. E. Wollman, S. K. Steinke, P. Meystre, A. A. Clerk, K. C. Schwab
    Science 344, 1262 (2014)
    (see also perspective article by D. Bouwmeester, "The quantum nondemolition derby" )

  24. Quantum-limited amplification via reservoir engineering
    A. Metelmann and A. A. Clerk
    Phys. Rev. Lett. 112, 133904 (2014)

  25. Dissipative optomechanical squeezing of light
    A. Kronwald, F. Marquardt and A. A. Clerk
    New J. Phys. 16, 063058 (2014)

  26. Mechanical entanglement via detuned parametric amplification
    A. Szorkovszky, A. A. Clerk, A. C. Doherty and W. P. Bowen
    New J. Phys. 16, 063043 (2014)

  27. Two-mode squeezed states in cavity optomechanics via engineering of a single reservoir
    M. J. Woolley and A. A. Clerk
    Phys. Rev. A 89, 063805 (2014)

  28. Detuned mechanical parametric amplification as a quantum non-demolition measurement
    A. Szorkovszky, A. A. Clerk, A. C. Doherty and W. P. Bowen
    New. J. Phys. 16, 043023 (2014)

  29. Photon propagation in a one-dimensional optomechanical lattice
    W. Chen and A. A. Clerk
    Phys. Rev. A 89, 033854 (2014)

  30. Laser Theory for Optomechanics: Limit Cycles in the Quantum Regime
    N. Lörch, J. Qian, A. A. Clerk, F. Marquardt and K. Hammerer
    Phys. Rev. X 4, 011015 (2014)

  31. Arbitrarily large steady-state bosonic squeezing via dissipation
    A. Kronwald, F. Marquardt and A. A. Clerk
    Phys. Rev. A 88, 063833 (2013)

  32. Nonlinear interaction effects in a strongly driven optomechanical cavity
    M.-A. Lemonde, N. Didier and A. A. Clerk
    Phys. Rev. Lett. 111, 053602 (2013).

  33. Two-mode back-action-evading measurements in cavity optomechanics
    M. Woolley and A. A. Clerk
    Phys. Rev. A 87, 063846 (2013).

  34. Reservoir-engineered entanglement in optomechanical systems
    Y.-D. Wang and A. A. Clerk
    Phys. Rev. Lett. 110, 253601 (2013)

  35. Quantum Signatures of the Optomechanical Instability
    J. Qian, A. A. Clerk, K. Hammerer and F. Marquardt
    Phys. Rev. Lett. 109, 253601 (2012)

  36. Using dark modes for high fidelity optomechanical quantum state transfer
    Y.-D. Wang and A. A. Clerk
    New J. Phys.14, 105010 (2012)

  37. Using interference for high fidelity quantum state transfer in optomechanics
    Y.-D. Wang and A. A. Clerk
    Phys. Rev. Lett. 108, 153603 (2012)

  38. Seeing the "quantum" in quantum zero-point motion
    A. A. Clerk
    Physics 5, 8 (2012) (Viewpoint article)

  39. Full counting statistics of energy fluctuations in a driven quantum resonator
    A. A. Clerk
    Phys. Rev. A 84, 043824 (2011)

  40. Quantum limited amplification with a nonlinear cavity detector
    C. Laflamme and A. A. Clerk
    Phys. Rev. A 83, 033803 (2011)

  41. Quantum Measurement of Phonon Shot Noise
    A. A. Clerk, F. Marquardt and J. G. E. Harris
    Phys. Rev. Lett. 104, 213603 (2010)
    (selected as an "Editor's Suggestion" by the editors of PRL)

  42. Introduction to Quantum Noise, Measurement and Amplification
    A. A. Clerk, M. H. Devoret, S. M. Girvin, F. Marquardt and R. J. Schoelkopf
    Rev. Mod. Phys. 82, 1155 (2010)
    (NB: substantial improvements over original arXiv version; linked version includes supplementary appendices)

  43. Back-action-evading measurements of nanomechanical motion
    J. B. Hertzberg, T. Rocheleau, T. Ndukum, M. Savva, A. A. Clerk, K. C. Schwab
    Nature Phys. 6, 213 (2010)

  44. Preparation and Detection of a Mechanical Resonator Near the Ground State of Motion
    T. Rocheleau, T. Ndukum, C. Macklin, J. B. Hertzberg, A. A. Clerk, K. C. Schwab
    Nature 463, 72 (2010)

  45. Facing Heisenberg at the nanoscale
    A. A. Clerk
    Nature Nanotech. 4, 796 (2009) (News and Views article)

  46. Quantum Noise Interference and Back-action Cooling in Cavity Nanomechanics
    F. Elste, S. M. Girvin and A. A. Clerk
    Phys. Rev. Lett. 102, 207209 (2009)

  47. Quantum theory of optomechanical cooling
    F. Marquardt, A. A. Clerk and S. M. Girvin
    J. Mod. Optics 55, 3329 (2008)

  48. Dispersive optomechanics: a membrane inside a cavity
    A. M. Jayich, J. C. Sankey, B. M. Zwickl, C. Yang, J. D. Thompson, S. M. Girvin, A. A. Clerk, F. Marquardt and J. G. E. Harris
    New J. Phys. 10, 095008 (2008)

  49. Back-action evasion and squeezing of a mechanical resonator using a cavity detector
    A. A. Clerk, F. Marquardt and K. Jacobs
    New J. Phys. 10, 095010 (2008)

  50. Quantum Theory of Cavity-Assisted Sideband Cooling of Mechanical Motion
    F. Marquardt, J. P. Chen, A. A. Clerk and S. M. Girvin
    Phys. Rev. Lett. 99, 093902 (2007)

  51. Using a qubit to measure photon number statistics of a driven, thermal oscillator
    A. A. Clerk and D. Wahyu Utami
    Phys. Rev. A 75, 042302 (2007)

  52. Quantum-Limited Position Detection and Amplification: A Linear Response Perspective
    A. A. Clerk
    Phys. Rev. B 70, 245306 (2004)

Quantum Electromechanics

  1. Nanomechanical pump-probe measurements of insulating electronic states in a carbon nanotube
    I. Khivrich, A. A. Clerk and S. Ilani
    Nature Nano., adv. online pub. (2019).

  2. Quantum phononics: To see a SAW
    A. A. Clerk
    Nature Phys. 8, 256 (2012) (News & Views article)

  3. Excited-State Spectroscopy on an Individual Quantum Dot Using Atomic Force Microscopy
    L. Cockins, Y. Miyahara, S. D. Bennett, A. A. Clerk, and P. Grutter
    Nano Lett. 12, 709 (2012)

  4. High-Q electromechanics with InAs nanowire quantum dots
    H. Solanki, S. Sengupta, S. Dubey, V. Singh, S. Dhara, A. Kumar, A. Bhattacharya, S. Ramakrishnan, A. A. Clerk and M. M. Deshmukh
    Appl. Phys. Lett. 99, 213104 (2011)

  5. Mechanically probing coherent tunnelling in a double quantum dot
    J. Gardner. S. D. Bennett and A. A. Clerk
    Phys. Rev. B 84, 205316 (2011)

  6. Scattering approach to backaction in coherent nanoelectromechanical systems
    S. D. Bennett, J. Maassen and A. A. Clerk
    Phys. Rev. Lett. 105, 217206 (2010) (includes erratum)

  7. Energy levels of few electron quantum dots imaged and characterized by atomic force microscopy
    L. Cockins, Y. Miyahara, S. D. Bennett, A. A. Clerk, P. Grutter, S. Studenikin, P. Poole, A. Sachrajda
    Proc. Nat. Acad. Sci. 107, 9496 (2010)

  8. Back-action-evading measurements of nanomechanical motion
    J. B. Hertzberg, T. Rocheleau, T. Ndukum, M. Savva, A. A. Clerk, K. C. Schwab
    Nature Phys. 6, 213 (2010)

  9. Strong Electromechanical Coupling of an AFM Cantilever to a Quantum Dot
    S. D. Bennett, L. Cockins, Y. Miyahara, P. Grutter, A. A. Clerk
    Phys. Rev. Lett. 104, 017203 (2010)
    (selected as an "Editor's Suggestion" by the editors of PRL)

  10. Preparation and Detection of a Mechanical Resonator Near the Ground State of Motion
    T. Rocheleau, T. Ndukum, C. Macklin, J. B. Hertzberg, A. A. Clerk, K. C. Schwab
    Nature 463, 72 (2010)

  11. Facing Heisenberg at the nanoscale
    A. A. Clerk
    Nature Nanotech. 4, 796 (2009) (News and Views article)

  12. Full counting statistics and conditional evolution in a nanoelectromechanical system
    S.D. Bennett and A. A. Clerk
    Phys. Rev. B 78, 165328 (2008)

  13. Entanglement Dynamics in a Dispersively Coupled Qubit-Oscillator System
    D. Wahyu-Utami and A. A. Clerk
    Phys. Rev. A 78, 042323 (2008)

  14. Laser-like Instabilities in Quantum Nano-electromechanical Systems
    S. D. Bennett and A. A. Clerk
    Phys. Rev. B 74, 201301(R) (2006)

  15. Cooling a nanomechanical resonator with quantum back-action
    A. Naik, O. Buu, M. D. LaHaye, A. D. Armour, A. A. Clerk, M. P. Blencowe and K. C. Schwab
    Nature (London) 443, 193 (2006)

  16. Quantum nano-electromechanics with electrons, quasiparticles and Cooper-pairs: Effective bath descriptions and strong-feedback effects
    A. A. Clerk and S. Bennett
    New J. Phys 7, 238 (2005) (special focus issue on NEMS)

  17. Quantum-Limited Position Detection and Amplification: A Linear Response Perspective
    A. A. Clerk
    Phys. Rev. B 70, 245306 (2004)

  18. Shot Noise of a Tunnel Junction Displacement Detector
    A. A. Clerk and S. M. Girvin
    Phys. Rev. B 70, 121303(R) (2004)

Quantum Electrons (transport, interactions, disorder, etc.)

  1. Nanomechanical pump-probe measurements of insulating electronic states in a carbon nanotube
    I. Khivrich, A. A. Clerk and S. Ilani
    Nature Nano., adv. online pub. (2019).

  2. Fock-state stabilization and emission in superconducting circuits using dc-biased Josephson junctions
    J.-R. Souquet and A. A. Clerk
    Phys. Rev. A (Rapids) 93, 060301 (2016)

  3. Quantum heat engine based on photon-assisted Cooper pair tunneling
    P. Hofer, J.-R. Souquet and A. A. Clerk
    Phys. Rev. B (Rapids) 93, 041448 (2016)
    (selected as an Editor's Suggestion)

  4. Negative full counting statistics arise from interference
    P. Hofer and A. A. Clerk
    Phys. Rev. Lett. 116, 013603 (2016)

  5. Quantum Kibble-Zurek physics in the presence of spatially correlated dissipation
    P. Nalbach, S. Vishveshwara and A. A. Clerk
    Phys. Rev. B 92, 014306 (2015)

  6. Photon-assisted tunneling with non-classical light
    J.-R. Souquet, M.J. Woolley, J. Gabelli, P. Simon, A. A. Clerk
    arXiv:1408.1128 (2014); accepted for publication in Nature Communications

  7. Measurement of the Electronic Thermal Conductance Channels and Heat Capacity of Graphene at Low Temperature
    K. C. Fong, E. E. Wollman, H. Ravi, W. Chen, A. A. Clerk, M. D. Shaw, H. G. Leduc and K. C. Schwab
    Phys. Rev. X 3, 041008 (2013)

  8. Electron-phonon mediated heat flow in disordered graphene
    W. Chen and A. A. Clerk
    Phys. Rev. B 86, 125443 (2012)

  9. Quantum interference and phonon-mediated back-action in lateral quantum-dot circuits
    G. Granger, D. Taubert, C. E. Young, L. Gaudreau, A. Kam, S. A. Studenikin, P. Zawadzki, D. Harbusch, D. Schuh, W. Wegscheider, Z. R. Wasilewski, A. A. Clerk, S. Ludwig and A. S. Sachrajda
    Nature Phys. 8, 522 (2012)

  10. Mechanically probing coherent tunnelling in a double quantum dot
    J. Gardner. S. D. Bennett and A. A. Clerk
    Phys. Rev. B 84, 205316 (2011)

  11. Scattering approach to backaction in coherent nanoelectromechanical systems
    S. D. Bennett, J. Maassen and A. A. Clerk
    Phys. Rev. Lett. 105, 217206 (2010) (includes erratum)

  12. Inelastic Backaction due to Quantum Point Contact Charge Fluctuations
    C. E. Young and A. A. Clerk
    Phys. Rev. Lett. 104, 186803 (2010)

  13. Theory of non-equilibrium transport in the SU(N) Kondo regime
    C. Mora, P. Vitushinsky, X. Leyronas, A. A. Clerk, K. Le Hur
    Phys. Rev. B 80, 155322 (2009)
    (selected as an "Editor's Suggestion" by the editors of PRB)

  14. Effects of Fermi Liquid Interactions on the Shot Noise of a SU(N) Kondo Quantum Dot
    P. Vitushinsky, A. A. Clerk and K. Le Hur
    Phys. Rev. Lett. 100, 036603 (2008)

  15. Back-action in Strongly Interacting Quantum Detectors
    A. A. Clerk
    Phys. Rev. Lett. 96, 056801 (2006)

  16. Quantum nano-electromechanics with electrons, quasiparticles and Cooper-pairs: Effective bath descriptions and strong-feedback effects
    A. A. Clerk and S. Bennett
    New J. Phys 7, 238 (2005) (special focus issue on NEMS)

  17. Single-electron Transistor Backaction on the Single-electron Box
    B. A. Turek, K. W. Lehnert, A. A. Clerk, D. Gunnarsson, K. Bladh, P. Delsing, and R. J. Schoelkopf
    Phys. Rev. B 71, 193304 (2005)

  18. Interaction-Induced restoration of phase coherence
    A. A. Clerk, P.W. Brouwer and V. Ambegaokar
    Phys. Rev. Lett. 87, 186801 (2001)

  19. Fano resonances as a probe of dephasing
    A. A. Clerk, X. Waintal, and P.W. Brouwer
    Phys. Rev. Lett. 86, 4636 (2001)

  20. Andreev conductance of chaotic and integrable quantum dots
    A. A. Clerk, P. W. Brouwer and V. Ambegaokar
    Phys. Rev. B 62, 10266 (2000)

  21. Loss of pi-junction behavior in an interacting impurity Josephson Junction
    A. A. Clerk and V. Ambegaokar
    Phys. Rev. B 61, 9109 (2000)

  22. Andreev scattering and the Kondo Effect
    A. A. Clerk, V. Ambegaokar and S. Hershfield
    Phys. Rev. B 61, 3555 (2000)

Miscellaneous

  1. Entropy and time
    V. Ambegaokar and A. A. Clerk
    Am. J. Phys. 67, 1068 (1999)

  2. Nonlocality and the Rotating Wave Approximation
    A. A. Clerk and J. E. Sipe
    Found. Phys. 28, 639 (1998)

  3. Binary Interactions Between Polar Lows.
    I. A. Renfrew, G. W. K. Moore and A. A. Clerk
    Tellus A 49, 577 (1997)