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

“Anneal-path correction in flux qubits”, [2002.11217], by M. Khezri, J. Grover, J. Basham, S. Disseler, H. Chen, S. Novikov, K. Zick, D. A. Lidar

“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]

“Demonstration of fidelity improvement using dynamical decoupling with superconducting qubits”, Phys. Rev. Lett. **121**, 220502 (2018), by B. Pokharel, N. Anand, B Fortman 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]

“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]

“Non-stoquastic Hamiltonians in quantum annealing via geometric phases”, Nature Quant. Info. **3**, 38 (2017), 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]

“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]

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

“Quantum Annealing Correction for Random Ising Problems”, Phys. Rev. A **91**, 042302 (2015), by K. Pudenz, T. Albash, and D. Lidar. [link]

“Error Corrected Quantum Annealing with Hundreds of Qubits”, Nature Communications **5**, 3243 (2014), by K.P. Pudenz, T. Albash, and D.A. Lidar. [link][sup-mat]

“The Manipulation of Massive Ro-vibronic Superpositions Using Time-Frequency-Resolved Coherent Anti-Stokes Raman Scattering (TFRCARS): from Quantum Control to Quantum Computing”, Chemical Physics **266**, 323 (2001), R. Zadoyan, D. Kohen, D.A. Lidar, and V.A. Apkarian [pdf]

“How to Teleport Superpositions of Chiral Amplitudes”, Phys. Rev. Lett. **81**, 5928 (1998), C.S. Maierle, D.A. Lidar, and Robert A. Harris [pdf]

“Analysis of the Quantum Zeno Effect for Quantum Control and Computation”, J. Phys. A: Math. Theor. **46**, 075306 (2013), by J. Dominy, G. Paz-Silva, A.T. Rezakhani, and D.A. Lidar. [link]

“Arbitrarily Accurate Dynamical Control in Open Quantum Systems”, Phys. Rev. Lett **104**, 090501 (2010), by K. Khodjasteh, D.A. Lidar, and L. Viola. [link]

“Control of Decoherence: Analysis and Comparison of Three Different Strategies”, Phys. Rev. A **71**, 022302 (2005), by P. Facchi, S. Tasaki, S. Pascazio, H. Nakazato, A. Tokuse, and D.A. Lidar [pdf]

“Decoherence-Protected Quantum Gates for a Hybrid Solid-State Spin Register”, Nature 484, **82** (2012), by T. van der Sar, Z.H. Wang, M.S. Blok, H. Bernien, T.H. Taminiau, D.M. Toyli, D.A. Lidar, D.D. Awschalom, R. Hanson, and V.V. Dobrovitski [link]

“Encoding a Qubit into Multilevel Subspaces”, New J. Phys. **8**, 35 (2006), by M. Grace, C. Brif, H. Rabitz, I. Walmsley, R. Kosut, and D.A. Lidar [link]

“Optimal Control Landscape for the Generation of Unitary Transformations with Constrained Dynamics”, Phys. Rev. A **81**, 062352 (2010), by M. Hsieh, R. Wu, H. Rabitz, and D.A. Lidar. [link]

“Fidelity of Optimally Controlled Quantum Gates with Randomly Coupled Multiparticle Environments”, J. Mod. Optics **54**, 2339 (2007), by M. Grace, C. Brif, H. Rabitz, I. Walmsley, R. Kosut, and D.A. Lidar [link]

“Optimal Control of Quantum Gates and Suppression of Decoherence in a System of Interacting Two-Level Particles”, J. Phys. B. **40**, S103 (2007) (special issue on “Dynamical Control of Entanglement and Decoherence by Field-Matter Interactions”), by M. Grace, C. Brif, H. Rabitz, I.A. Walmsley, and D.A. Lidar [link]

“Optimal Dynamical Decoherence Control of a Qubit”, Phys. Rev. Lett. **101**, 010403 (2008), by G. Gordon, G. Kurizki, and D.A. Lidar [link]

“Overview of Quantum Error Prevention and Leakage Elimination”, J. Mod. Optics **51**, 2449 (2004), by M.S. Byrd, L.-A. Wu, and D. Lidar [pdf]

“Stabilizing Qubit Coherence via Tracking-Control”, Quant. Info. and Computation **5**, 350 (2005), by D.A. Lidar and S. Schneider [pdf]

“Zeno Effect for Quantum Computation and Control”, Phys. Rev. Lett. **108**, 080501 (2012), G. A. Paz-Silva, A. T. Rezakhani, J. Dominy and D.A. Lidar [link]