David Poulin

Tenured Professor
EPIQ Director

David.Poulin@USherbrooke.ca

Publications


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2019
[91]
Anirudh Krishna and David Poulin,
Topological wormholes,
(2019)
[pdf] [eprint]
[90]
Anirudh Krishna and David Poulin,
Fault-tolerant gates on hypergraph product codes,
(2019)
[pdf] [eprint]
[89]
C. Walsh and P. Sémon and D. Poulin and G. Sordi and A. -M. S. Tremblay,
Thermodynamic and information-theoretic description of the Mott transition in the two-dimensional Hubbard model,
Phys. Rev. B 99, 075122 (2019)
[pdf] [eprint]
[88]
C. Walsh and P. Sémon and D. Poulin and G. Sordi and A. -M. S. Tremblay,
Entanglement entropy and mutual information across the Mott transition in the two-dimensional Hubbard model,
Phys. Rev. Lett. 122, 067203 (2019)
[pdf] [eprint]
[87]
David Poulin and Roger G. Melko and Matthew B. Hastings,
Self-correction in Wegner’s 3D Ising lattice gauge theory,
Phys. Rev. B 99, 094103 (2019)
[pdf] [eprint]
[86]
Ye-Hua Liu and David Poulin,
Neural Belief-Propagation Decoders for Quantum Error-Correcting Codes,
Phys. Rev. Lett. 122, 200501 (2019)
[pdf] [eprint]
2018
[85]
A. Bolt and D. Poulin and T. M. Stace,
Decoding Schemes for Foliated Sparse Quantum Error Correcting Codes ,
Phys. Rev. A 98, 062302 (2018)
[pdf]
[84]
Andrew S. Darmawan and David Poulin,
An ecient general decoding algorithm for the surface code,
Phys. Rev. E 97, 051302(R) (2018)
[pdf] [eprint]
[83]
Benjamin Bourassa and Maxime Tremblay and David Poulin ,
Convolutional Polar Codes on Channels with Memory,
(2018)
[pdf] [eprint]
[82]
Christopher Chamberland and Pavithran Iyer and David Poulin,
Fault-Tolerant Quantum Computing in the Pauli or Clifford Frame with Slow Error Diagnostics,
Quantum 2, 43 (2018)
[pdf] [eprint]
[81]
David Poulin and Alexei Kitaev and Damian S. Steiger and Matthew B. Hastings and Matthias Troyer,
Quantum Algorithm for Spectral Measurement with a Lower Gate Count,
Phys. Rev. Lett 121, 010501 (2018)
[pdf] [eprint]
[80]
Jeongwan Haah and Matthew B. Hastings and David Poulin and Dave Wecker,
Magic State Distillation at Intermediate Size,
Quantum Inf. Comput. 18, 114 (2018)
[pdf] [eprint]
[79]
Maxime Tremblay and Benjamin Bourassa and David Poulin ,
Depth versus Breadth in Convolutional Polar Codes,
(2018)
[pdf] [eprint]
[78]
Pavithran Iyer Sridharan and David Poulin,
A Small Quantum Computer is Needed to Optimize Fault-Tolerant Protocols,
Quantum Sci. Technol. 3, 030504 (2018)
[pdf] [eprint]
2017
[77]
Andrew Ferris and Christoph Hirche and David Poulin,
Convolutional Polar Codes,
(2017)
[pdf] [eprint]
[76]
Andrew S. Darmawan and David Poulin,
Tensor-network simulations of the surface code under realistic noise,
Phys. Rev. Lett. 119, 040502 (2017)
[pdf] [eprint]
[75]
Guillaume Dauphinais and David Poulin,
Fault-Tolerant Quantum Error Correction for non-Abelian Anyons,
Comm. Math. Phys. 355, 519 (2017)
[pdf] [eprint]
[74]
Jeongwan Haah and Matthew B. Hastings and David Poulin and Dave Wecker,
Magic state distillation with low space overhead and optimal asymptotic input count,
Quantum 1, 31 (2017)
[pdf] [eprint]
2016
[73]
Andrew Bolt, Guillaume Duclos-Cianci, David Poulin and Tom M. Stace,
Foliated quantum error-correcting codes,
Phys. Rev. Lett. 117, 070501 (2016)
[pdf] [eprint]
[72]
Jacob C. Bridgeman, Steven T. Flammia and David Poulin,
Detecting Topological Order with Ribbon Operators,
Phys. Rev. B 94, 205123 (2016)
[pdf] [eprint]
[71]
Nicolas Delfosse, Pavithran Iyer and David Poulin,
Generalized surface codes and packing of logical qubits,
(2016)
[pdf] [eprint]
[70]
Nicolas Delfosse, Pavithran Iyer and David Poulin,
A linear-time benchmarking tool for generalized surface codes,
(2016)
[pdf] [eprint]
2015
[69]
David Poulin, M.B. Hastings, Dave Wecker, Nathan Wiebe, Andrew C. Doherty and Matthias Troyer,,
The Trotter Step Size Required for Accurate Quantum Simulation of Quantum Chemistry,
Quant. Info. and Comp. 15, 0361 (2015)
[pdf]
[68]
G. Duclos-Cianci and D. Poulin,
Reducing the quantum computing overhead with complex gate distillation,
Phys. Rev. A 91, 042315 (2015)
[pdf] [eprint]
[67]
Iyer, Pavithran and Poulin, David,
Hardness of decoding quantum stabilizer codes,
IEEE Trans. Info. Theor. 61, 5209 (2015)
[pdf] [eprint]
[66]
Olivier Landon-Cardinal, Beni Yoshida, John Preskill and David Poulin,
Perturbative instability of quantum memory based on effective long-range interactions,
Phys. Rev. A 91, 032303 (2015)
[pdf] [eprint]
[65]
Paul Webster, Stephen D. Bartlett and David Poulin,
Reducing the overhead for quantum computation when noise is biased,
Phys. Rev. A 92, 062309 (2015)
[pdf] [eprint]
2014
[64]
Anderson, Jonas T. and Duclos-Cianci, Guillaume and Poulin, David,
Fault-tolerant conversion between the Steane and Reed-Muller quantum codes,
Phys. Rev. Lett. 113, 080501 (2014)
[pdf] [eprint]
[63]
Andrew Ferris and David Poulin,
Branching MERA codes: a natural extension of classical and quantum polar codes,
International Symposium on Information Theory , (2014)
[pdf]
[62]
Ferris, Andrew J. and Poulin, David,
Tensor Networks and Quantum Error Correction,
Phys. Rev. Lett. 113, 030501 (2014)
[pdf] [eprint]
[61]
Guillaume Duclos-Cianci and David Poulin,
Fault-Tolerant Renormalization Group Decoder for Abelian Topological Codes,
Quant. Info. and Comp. 14, 0721 (2014)
[pdf] [eprint]
2013
[60]
C.G. Brell and S.D. Burton and G. Dauphinais and S.T. Flammia and D. Poulin,
Thermalization, Error-Correction, and Memory Lifetime for Ising Anyon Systems ,
(2013)
[pdf] [eprint]
[59]
D. Kribs and D. Poulin,
Operator quantum error correction,
Chapter in book Quantum Error Correction 163 (2013)
[pdf]
[58]
D. Poulin,
Iterative quantum coding systems,
Chapter in book Quantum error correction 279 (2013)
[pdf]
[57]
Emilie Pelchat and David Poulin,
Degenerate Viterbi decoding,
IEEE Trans. Info. Theor. 59, 3915 (2013)
[pdf] [eprint]
[56]
Ferris, Andrew J. and Poulin, David,
Algorithms for the Markov Entropy Decomposition,
Phys. Rev. B 87, 205126 (2013)
[pdf] [eprint]
[55]
Ferris, Andrew J. and Poulin, David,
Branching MERA codes: a natural extension of polar codes,
(2013)
[pdf] [eprint]
[54]
G. Poulin-Lamarre, C. Bureau-Oxton, A. Kam, P. Zawadzki, S. Studenikin, G. Aers, M. Pioro-Ladrière and A. S. Sachrajda,
Simulations of Magnetic Field Gradients due to Micro-Magnets on a Triple Quantum Dot Circuit,
AIP Conference Proceedings 1566, 556 (2013)
[53]
Guillaume Duclos-Cianci and David Poulin,
Kitaev’s Z_d-Codes Threshold Estimates,
Phys. Rev. A 87, 062338 (2013)
[pdf] [eprint]
[52]
Landon-Cardinal, Olivier and Poulin, David,
Local topological order inhibits thermal stability in 2D,
Phys. Rev. Lett. 110, 090502 (2013)
[pdf] [eprint]
[51]
S. Bravyi, G. Duclos-Cianci, D. Poulin and M. Suchara,
Subsystem surface codes with three-qubit check operators,
Quant. Info. and Comp. 13, 0963 (2013)
[pdf] [eprint]
2012
[50]
Brown, Winton and Poulin, David,
Quantum Markov Networks and Commuting Hamiltonians,
(2012)
[pdf] [eprint]
[49]
Gabrielle Denhez and Alexandre Blais and David Poulin,
Quantum error correction benchmarks for continuous weak parity measurements,
Phys. Rev. A 86, 032318 (2012)
[pdf] [eprint]
[48]
Hector Bombin and Guillaume Duclos-Cianci and David Poulin,
Universal topological phase of 2D stabilizer codes,
New J. Phys. 14, 073048 (2012)
[pdf] [eprint]
[47]
Olivier Landon-Cardinal and David Poulin,
Practical learning method for multi-scale entangled states,
New J. Phys. 14, 085004 (2012)
[pdf] [eprint]
2011
[46]
David Poulin and Angie Quarry and Rolando D. Somma and Frank Verstraete,
Quantum simulation of time-dependent Hamiltonians and the convenient illusion of Hilbert space,
Phys. Rev. Lett. 106, 170501 (2011)
[pdf] [eprint]
[45]
David Poulin and Matthew B. Hastings,
Markov entropy decomposition: a variational dual for quantum belief propagation,
Phys. Rev. Lett 106, 080403 (2011)
[pdf] [eprint]
[44]
K. Temme and T.J. Osborne and K. Vollbrecht and David Poulin and F. Verstraete,
Quantum Metropolis Sampling,
Nature 471, 87 (2011)
[pdf] [eprint]
[43]
Marcus P. da Silva and Olivier Landon-Cardinal and David Poulin,
Practical characterization of quantum devices without tomography,
Phys. Rev. Lett. 107, 210404 (2011)
[pdf] [eprint]
2010
[42]
David Poulin,
Lieb-Robinson bound and locality for general Markovian quantum dynamics,
Phys. Rev. Lett. 104, 190401 (2010)
[pdf] [eprint]
[41]
E. Bilgin and David Poulin,
Coarse grained belief propagation for simulation of interacting quantum systems at all temperatures,
Phys. Rev. B 81, 054106 (2010)
[pdf] [eprint]
[40]
Guillaume Duclos-Cianci and David Poulin,
Fast decoders for topological quantum codes,
Phys. Rev. Lett. 104, 050504 (2010)
[pdf] [eprint]
[39]
Guillaume Duclos-Cianci and David Poulin,
A renormalization group decoding algorithm for topological quantum codes,
IEEE Information Theory Workshop, (2010)
[pdf] [eprint]
[38]
M. Cramer and M.B. Plenio and S.T. Flammia and R. Somma and D. Gross and S.D. Bartlett and O. Landon-Cardinal and D. Poulin and Y.-K. Liu,
Efficient quantum state tomography,
Nature Comm. 1, 149 (2010)
[pdf] [eprint]
[37]
R. Blume-Kohout and H.K. Ng and D. Poulin and L. Viola,
Information preserving structures: a general framework for quantum zero-error information,
Phys. Rev. A 82, 062306 (2010)
[pdf] [eprint]
[36]
S. Bravyi and D. Poulin and B.M. Terhal,
Tradeoffs for reliable quantum information storage in 2D systems,
Quantum Cryptography and Computing, 125 (2010)
[pdf]
[35]
S. Bravyi and David Poulin and B.M. Terhal,
Tradeoffs for reliable quantum information storage in 2D systems,
Phys. Rev. Lett. 104, 050503 (2010)
[pdf] [eprint]
2009
[34]
D. Poulin and J.-P. Tillich and H. Ollivier,
Quantum serial turbo-codes,
IEEE Trans. Info. Theor. 55, 2776 (2009)
[pdf] [eprint]
[33]
David Poulin and Pawel Wocjan,
Sampling from the quantum Gibbs state and evaluating partition functions with a quantum computer,
Phys. Rev. Lett. 103, 220502 (2009)
[pdf] [eprint]
[32]
David Poulin and Pawel Wocjan,
Preparing ground states of quantum many-body systems on a quantum computer,
Phys. Rev. Lett. 102, 130503 (2009)
[pdf] [eprint]
2008
[31]
D. Poulin and E. Bilgin,
Belief propagation algorithm for computing correlation functions in finite-temperature quantum many-body systems on loopy graphs,
Phys. Rev. A 77, 052318 (2008)
[pdf] [eprint]
[30]
D. Poulin and Y. Chung,
On the iterative decoding of sparse quantum codes,
Quant. Info. and Comp. 8, 986 (2008)
[pdf] [eprint]
[29]
David Poulin and Jean-Pierre Tillich and Harold Ollivier,
Quantum serial turbo-codes,
ISIT’08, (2008)
[pdf]
[28]
F. Girelli and D. Poulin,
Quantum reference frames and deformed symmetries,
Phys. Rev. D 77, 104012 (2008)
[pdf] [eprint]
[27]
M.S. Leifer and D. Poulin,
Quantum graphical models and belief propagation,
Ann. Phys. 323, 1899 (2008)
[pdf] [eprint]
[26]
R. Blume-Kohout and H.K. Ng and D. Poulin and L. Viola,
The structure of preserved information in quantum processes,
Phys. Rev. Lett. 100, 030501 (2008)
[pdf] [eprint]
2007
[25]
D. Poulin and J. Yard,
Dynamics of a Quantum Reference Frame,
New J. Phys. 9, 156 (2007)
[pdf] [eprint]
[24]
F. Girelli and D. Poulin,
Deformed symmetries from quantum relational observables,
J. of Phys.: Conf. Series, 12th Conference on Recent Developments in Gravity 68, (2007)
[pdf]
[23]
Nielsen, M. A. and Poulin, D.,
Algebraic and information-theoretic conditions for operator quantum error-correction,
Phys. Rev. A 75, 064304 (2007)
[pdf] [eprint]
2006
[22]
D. Poulin,
Optimal and Efficient Decoding of Concatenated Quantum Block Codes,
Phys. Rev. A 74, 052333 (2006)
[pdf] [eprint]
[21]
David Poulin,
Toy model for a relational formulation of quantum theory,
Int. J. of Theor. Phys. 45, 1229 (2006)
[pdf] [eprint]
[20]
Kribs, D. W. and Laflamme, R. and Poulin, D. and Lesosky, M.,
Operator quantum error correction,
Quant. Info. and Comp. 6, 382 (2006)
[pdf] [eprint]
[19]
Milburn, G. J. and Poulin, D.,
Relational time for systems of oscillators,
Int. J. Quant. Info. 4, 151 (2006)
[pdf] [eprint]
2005
[18]
C. A. Ryan and J. Emerson and D. Poulin and C. Negrevergne and R. Laflamme,
Characterization of Complex Quantum Dynamics with a Scalable NMR Information Processor,
Phys. Rev. Lett. 95, 250502 (2005)
[pdf] [url]
[17]
David Poulin and Hugo Touchette,
Comment on ``Some non-conventional idesa about algorithmic complexity",
(2005)
[pdf] [eprint]
[16]
Kribs, D. and Laflamme, R. and Poulin, D.,
A Unified and Generalized Approach to Quantum Error Correction,
Phys. Rev. Lett. 94, 180501 (2005)
[pdf] [eprint]
[15]
Ollivier, H. and Poulin, D. and Zurek, W. H.,
Environment as a Witness: Selective Proliferation of Information and Emergence of Objectivity,
Phys. Rev. A 72, 042113 (2005)
[pdf] [url] [eprint]
[14]
Poulin, D.,
Macroscopic Observables,
Phys. Rev. A 71, 22102 (2005)
[pdf] [eprint]
[13]
Poulin, D.,
Stabilizer formalism for operator quantum error correction,
Phys. Rev. Lett. 95, 230504 (2005)
[pdf] [eprint]
2004
[12]
Boileau, J.-C. and Gottesman, D. and Laflamme, R. and Poulin, D. and Spekkens, R. W.,
Robust Polarization-Based Quantum Key Distribution over a Collective-Noise Channel,
Phys. Rev. Lett. 92, 017901 (2004)
[pdf] [eprint]
[11]
Emerson, J. and Lloyd, S. and Poulin, D. and Cory, D.,
Estimation of the Local Density of States on a Quantum Computer,
Phys. Rev. A 69, 050305 (2004)
[pdf] [eprint]
[10]
Holbrook, J. A. and Kribs, D. W. and Laflamme, R. and Poulin, D.,
Noiseless subsystems for collective rotation channels in quantum information theory,
Integ. Eqs. & Oper. Theo. (2004)
[pdf] [eprint]
[9]
Ollivier, H. and Poulin, D. and Zurek, W. H.,
Objective properties from subjective quantum states: Environment as a witness,
Phys. Rev. Lett. 93, 220401 (2004)
[pdf] [eprint]
[8]
Poulin, D. and Blume-Kohout, R. and Laflamme, R. and Ollivier, H.,
Exponential Speedup with a Single Bit of Quantum Information: Measuring the Average Fidelity Decay,
Phys. Rev. Lett. 92, 177906 (2004)
[pdf] [eprint]
2003
[7]
B. Kyung and J.S. Landry and D. Poulin and A.-M.S. Tremblay,
Comment on ’Absence of a Slater Transition in the Two-Dimensional Hubbard Model’,
Phys. Rev. Lett 90, 099702 (2003)
[pdf] [eprint]
[6]
Poulin, D. and Blume-Kohout, R.,
Compatibility of quantum states,
Phys. Rev. A 67, 010101(R) (2003)
[pdf]
[5]
Poulin, D. and Laflamme, R. and Milburn, G. J. and Paz, J.-P.,
Testing Intergrability with a single bit of quantum information,
Phys. Rev. A 68, 022302 (2003)
[pdf] [eprint]
2002
[4]
David Poulin,
A rough guide to quantum chaos,
(2002)
[pdf]
2001
[3]
Poulin, D.,
Classicality of Quantum Information Processing,
Phys. Rev. A 65, 42319 (2001)
[pdf] [eprint]
2000
[2]
Hugo Touchette and David Poulin,
Aspects numériques des simulations du modèle de Hubbard --- Momte Carlo quantique et méthode d’entropie maximum,
(2000)
[pdf]
[1]
S. Moukouri, S. Allen, F. Lemay and B. Kyung and D. Poulin and Y. M. Vilk and and A.-M. S. Tremblay,
Many-body theory versus simulations for the pseudogap in the Hubbard model,
Phys. Rev. B 61, 7887 (2000)
[pdf] [eprint]
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