“Better-than-classical Grover search via quantum error detection and suppression”, [2211.04543] by B. Pokharel and D. A. Lidar.

“Demonstration of algorithmic quantum speedup”, [2207.07647] by B. Pokharel and D. A. Lidar

“Dynamical decoupling for superconducting qubits: a performance survey”, [2207.03670] by N. Ezzell, B. Pokharel, L. Tewala, G. Quiroz and D. A. Lidar

“Demonstration of error-suppressed quantum annealing via boundary cancellation”, [2206.14269] by H, Munoz-Bauza, L. Campos Venuti, D. A. Lidar

“Breakdown of the weak coupling limit in quantum annealing”, Phys. Rev. Applied **17**, 054033 (2022), by Y. Bando, Ka-Wa Yip, H. Chen, D. A. Lidar, H. Nishimori [link]

“Predicting non-Markovian superconducting qubit dynamics from tomographic reconstruction”, Phys. Rev. Applied **17**, 054018 (2022), by H. Zhang, B. Pokharel, E. M. Levenson-Falk and D. A. Lidar [link]

“HOQST: Hamiltonian Open Quantum System Toolkit”, Communications Physics (2022)5:11, by H. Chen and D. A. Lidar [link]

“Anneal-path correction in flux qubits”, npj Quantum Information **7**, 36 (2021), by M. Khezri, J. Grover, J. Basham, S. Disseler, H. Chen, S. Novikov, K. Zick, D. A. Lidar [link]

“Limitations of error corrected quantum annealing in improving the performance of Boltzmann machines”, Quantum Science and Technology **5**, 045010 (2020), by R. Li, T. Albash and D. A. Lidar [link]

“Why and when is pausing beneficial in quantum annealing?”, *Phys. Rev. Applied* **14**, 014100 (2020), by H. Chen and D. A. Lidar [link]

“Boundaries of quantum supremacy via random circuit sampling”, [2005.02464], by A. Zlokapa, S. Boixo, and D. A. Lidar

“Probing the Universality of Topological Defect Formation in a Quantum Annealer: Kibble-Zurek Mechanism and Beyond”, Phys. Rev. Research **2**, 033369 (September 2020), by Y. Bando, Y. Susa, H. Oshiyama, N. Shibata, M. Ohzeki, F. J. G´omez-Ruiz, D. A. Lidar, A. del Campo, S. Suzuki, and H. Nishimori [link]

“Completely positive master equation for arbitrary driving and small level spacing”, Quantum **4**, 227 (2020), by E. Mozgunov and D. A. Lidar [link]

“Analog Errors in Quantum Annealing: Doom and Hope” npj Quantum Information **5**, 107 (2019), by A. Pearson, A. Mishra, I. Hen and D. A. Lidar [link]

“Nested Quantum Annealing Correction at Finite Temperature: p-spin models”, Phys. Rev. A **99**, 062307 (2019), by S. Matsuura, H. Nishimori, W. Vinci, D. A. Lidar [link]

“A Double-Slit Proposal for Quantum Annealing”, npj Quantum Information **5, **2 (2019), by H. Munoz-Bauza, H. Chen, D. A. Lidar [link]

“Sensitivity of quantum speedup by quantum annealing to a noisy oracle”, Phys. Rev. A **99**, 032324 (2019), by S. Muthukrishnan, T. Albash and D. A. Lidar [link]

“Non-Markovianity of the Post Markovian Master Equation”, Phys. Rev. A **98**, 042119 (2018), by C. Sutherland, T. A. Brun and D. A. Lidar [link]

“Error Reduction in Quantum Annealing using Boundary Cancellation: Only the End Matters”, Phys. Rev. A **98**, 022315 (2018) , by L. Campos Venuti and D. A. Lidar [link]

“Finite temperature quantum annealing solving exponentially small gap problem with non-monotonic success probability”, Nature Comm*. ***9**, 2917 (2018), by A. Mishra, T. Albash and D. A. Lidar [link]

“Test-driving 1000 qubits”, *Quantum Science & Technology* **3**, 030501 (2018). Special issue on “What would you do with 1000 qubits” , by J. Job and D. A. Lidar [link]

“Quantum trajectories for time-dependent adiabatic master equations”, Phys. Rev. A **97**, 022116 (2018), by K. W. Yip, T. Albash, D. A. Lidar [link]

“Scalable effective temperature reduction for quantum annealers via nested quantum annealing correction”, Phys. Rev. A **97**, 022308 (2018), by W. Vinci and D. A. Lidar [link]

“Suppression of effective noise in Hamiltonian simulations”, Phys. Rev. A **96**, 052328 (2017) , by M. Marvian, T. Brun and D. A. Lidar [link]

“Relaxation vs. adiabatic quantum steady state preparation: which wins?”, Phys. Rev. A **95**, 042302 (2017), by L. Campos Venuti, T. Albash, M. Marvian, D. A. Lidar, and P. Zanardi [link]

“Error Suppression for Hamiltonian Quantum Computing in Markovian Environments”, Phys. Rev. A **95**, 032302 (2017), by M. Marvian and D. A. Lidar [link]

“Quantum annealing correction at finite temperature: ferromagnetic p-spin models”, Phys. Rev. A **95**, 022308 (2017), by S. Matsuura, H. Nishimori, W. Vinci, T. Albash, and D. A. Lidar [link]

“Error suppression for Hamiltonian-based quantum computation using subsystem codes”, Phys. Rev. Lett. **118**, 030504 (2017), by M. Marvian and D. A. Lidar [link]

“Evolution Prediction from Tomography”, Q. Info. Proc. **16**(3), 1 (2017), by J. Dominy, L. Campos-Venuti, A. Shabani, and D.A. Lidar [link]

“Simulated Quantum Annealing with Two All-to-All Connectivity Schemes”, Phys. Rev. A **94**, 022327 (2016), by T. Albash, W. Vinci, and D. A. Lidar [link]

“Adiabaticity in open quantum systems”, Phys. Rev. A **93**, 032118 (2016), by L.C. Venuti, T. Albash, D. A. Lidar, and P. Zanardi [link]

*“*Beyond Complete Positivity”, Quant. Info. Proc. **15**, 1, pp 1349 (2016), by J. Dominy and D.A. Lidar [link]

“A General Framework for Complete Positivity”, Quant. Info. Proc. **15**, 1, pp. 1 (2016), by J. Dominy, A. Shabani, and D.A. Lidar. [link]

“Quantum speed limits for leakage and decoherence”, Phys. Rev. Lett. **115, **210402 (2015), by I. Marvian, D.A. Lidar [link]

“Consistency tests of classical and quantum models for a quantum annealer”, Phys. Rev. A **91**, 042314 (2015), by T. Albash, W. Vinci, A. Mishra, P.A. Warburton, and D.A. Lidar [link]

“Decoherence in adiabatic quantum computation”, Phys. Rev. A **91**, 062320 (2015), by T. Albash and D.A. Lidar [link]

“Reexamining classical and quantum models for the D-Wave One processor”, The European Physics Journal, Special Topics **224**, 111 (special issue on quantum annealing) (2015), by T. Albash, T. Ronnow, M. Troyer, D.A. Lidar [link]

“Quantum error suppression with commuting Hamiltonians: Two-local is too local”, Phys. Rev. Lett. **113**, 260504 (2014), by I. Marvian and D.A. Lidar [link]

“From Completely Positive Maps to the Quantum Markovian Semigroup Master Equation”, Chemical Physics **268**, 35 (2001), D.A. Lidar, Z. Bihary, and K.B. Whaley, special issue on Dynamics of Open Quantum Systems [pdf]

“Abelian and Non-Abelian Geometric Phases in Adiabatic Open Quantum Systems”, Phys. Rev. A **73**, 062101 (2006), by M.S. Sarandy and D.A. Lidar [link]

“Adiabatic Approximation in Open Quantum Systems”, Phys. Rev. A **71**, 012331 (2005), by M.S. Sarandy and D.A. Lidar [pdf]

“Coarse Graining Can Beat the Rotating-Wave Approximation in Quantum Markovian Master Equations”, Phys. Rev. A **88**, 012103 (2013), by C. Majenz, T. Albash, H.P. Breuer, and D.A. Lidar. [link]

“Completely Positive Post-Markovian Master Equation via a Measurement Approach”, Phys. Rev. A Rapid Comm. **71**, 020101 (2005), by A. Shabani and D.A. Lidar [pdf]

“Conditions for Strictly Purity-Decreasing Quantum Markovian Dynamics”, Chemical Physics 322, **82** (2006), the special issue “Real-Time Dynamics in Complex Quantum Systems” in honor of Phil Pechukas, by D.A. Lidar, A. Shabani, and R. Alicki [link]

“Distance Bounds on Quantum Dynamics”, Phys. Rev. A **78**, 012308 (2008), by D.A. Lidar, P. Zanardi, and K. Khodjasteh [link]

“Fluctuation Theorems for Quantum Processes”, Phys. Rev. E **88**, 032146 (2013), by T. Albash, D.A. Lidar, M. Marvian, P. Zanardi. [link]

“Internal Consistency of Fault-Tolerant Quantum Error Correction in Light of Rigorous Derivations of the Quantum Markovian Limit”, Phys. Rev. A **73**, 052311 (2006), by R. Alicki, D.A Lidar, and P. Zanardi [link]

“Non-Markovian Dynamics of a Qubit Coupled to an Ising Spin Bath”, Phys. Rev. A **76**, 052117 (2007), by H. Krovi, O. Oreshkov, M. Ryazanov, and D.A. Lidar [link]

“Purity and State Fidelity of Quantum Channels”, Phys. Rev. A **70**, 012315 (2004), by P. Zanardi and D. Lidar [pdf]

“Quantum Adiabatic Markovian Master Equations”, New J. of Physics **14**, 123016 (2012), by T. Albash, S. Boixo, D.A. Lidar, and P. Zanardi. [link]

“Robustness of Multiqubit Entanglement in the Independent Decoherence Model”, Phys. Rev. A **72**, 042339 (2005), by S. Bandyopadhyay and D.A. Lidar [pdf]