Exploiting chemistry and molecular systems for quantum information science

[1]  D. Awschalom,et al.  Optically addressable molecular spins for quantum information processing , 2020, Science.

[2]  D. Bradley,et al.  Enhanced and Polarization-Dependent Coupling for Photoaligned Liquid Crystalline Conjugated Polymer Microcavities , 2020 .

[3]  E. W. Meijer,et al.  Highly Efficient and Tunable Filtering of Electrons' Spin by Supramolecular Chirality of Nanofiber‐Based Materials , 2020, Advanced materials.

[4]  José J. Baldoví,et al.  In Silico Molecular Engineering of Dysprosocenium-Based Complexes to Decouple Spin Energy Levels from Molecular Vibrations. , 2019, The journal of physical chemistry letters.

[5]  S. Krishnamoorthy,et al.  Green's function coupled cluster simulation of the near-valence ionizations of DNA-fragments. , 2019, The Journal of chemical physics.

[6]  E. Coronado Molecular magnetism: from chemical design to spin control in molecules, materials and devices , 2019, Nature Reviews Materials.

[7]  M. Hersam,et al.  2D materials for quantum information science , 2019, Nature Reviews Materials.

[8]  Mihály Kállay,et al.  Reduced-scaling correlation methods for the excited states of large molecules: implementation and benchmarks for the second-order algebraic-diagrammatic construction approach. , 2019, Journal of chemical theory and computation.

[9]  M. Wasielewski,et al.  Photodriven quantum teleportation of an electron spin state in a covalent donor–acceptor–radical system , 2019, Nature Chemistry.

[10]  Mihály Kállay,et al.  Approaching the basis set limit of CCSD(T) energies for large molecules with local natural orbital coupled-cluster methods. , 2019, Journal of chemical theory and computation.

[11]  W. Evans,et al.  Engineering electronic structure to prolong relaxation times in molecular qubits by minimising orbital angular momentum , 2019, Nature Communications.

[12]  R. Sessoli,et al.  The Second Quantum Revolution: Role and Challenges of Molecular Chemistry. , 2019, Journal of the American Chemical Society.

[13]  D. Beratan,et al.  Engineering opposite electronic polarization of singlet and triplet states increases the yield of high-energy photoproducts , 2019, Proceedings of the National Academy of Sciences.

[14]  Timothy C. Berkelbach,et al.  Coupled-cluster impurity solvers for dynamical mean-field theory , 2019, Physical Review B.

[15]  Jiangfeng Du,et al.  Nanoscale magnetic imaging of ferritins in a single cell , 2019, Science Advances.

[16]  W. Wernsdorfer,et al.  Synthetic Hilbert Space Engineering of Molecular Qudits: Isotopologue Chemistry , 2019, Advanced materials.

[17]  M. Lewenstein,et al.  Quantum Entanglement , 2020, Quantum Mechanics.

[18]  Jacob H. Olshansky,et al.  Photogenerated Spin-Entangled Qubit (Radical) Pairs in DNA Hairpins: Observation of Spin Delocalization and Coherence. , 2019, Journal of the American Chemical Society.

[19]  S. Hirata,et al.  Converging finite-temperature many-body perturbation theory in the grand canonical ensemble that conserves the average number of electrons , 2018, Annual Reports in Computational Chemistry.

[20]  A. Calzolari,et al.  Interfacing a Potential Purely Organic Molecular Quantum Bit with a Real-Life Surface. , 2018, ACS applied materials & interfaces.

[21]  D. Freedman,et al.  Progress towards creating optically addressable molecular qubits. , 2018, Chemical communications.

[22]  G. Scholes,et al.  From coherent to vibronic light harvesting in photosynthesis. , 2018, Current opinion in chemical biology.

[23]  R. Ribeiro,et al.  Remote Control of Chemistry in Optical Cavities , 2018, Chem.

[24]  T. Goodson,et al.  Two-Photon Excitation of Flavins and Flavoproteins with Classical and Quantum Light. , 2018, Journal of the American Chemical Society.

[25]  A. Ney,et al.  Tutorial: Basic principles, limits of detection, and pitfalls of highly sensitive SQUID magnetometry for nanomagnetism and spintronics , 2018, Journal of Applied Physics.

[26]  Aiko Kurimoto,et al.  Opto-Spintronics: Photoisomerization-Induced Spin State Switching at 300 K in Photochrome Cobalt-Dioxolene Thin Films. , 2018, Journal of the American Chemical Society.

[27]  D. Kharzeev,et al.  Chiral magnetic photocurrent in Dirac and Weyl materials , 2018, Physical Review B.

[28]  Edward F. Valeev,et al.  State-Averaged Pair Natural Orbitals for Excited States: A Route toward Efficient Equation of Motion Coupled-Cluster. , 2018, Journal of chemical theory and computation.

[29]  V. Sandoghdar,et al.  Turning a molecule into a coherent two-level quantum system , 2018, Nature Physics.

[30]  P. Zimmerman,et al.  Predicting and Controlling Entangled Two-Photon Absorption in Diatomic Molecules. , 2018, The journal of physical chemistry. A.

[31]  Jordan N. Nelson,et al.  Covalent Radical Pairs as Spin Qubits: Influence of Rapid Electron Motion between Two Equivalent Sites on Spin Coherence. , 2018, Journal of the American Chemical Society.

[32]  S. Mukamel,et al.  Entangled Two-Photon Absorption Spectroscopy. , 2018, Accounts of chemical research.

[33]  G. Guo,et al.  Spin manipulation in semiconductor quantum dots qubit , 2018, Chinese Physics B.

[34]  Ronald Hanson,et al.  Quantum technologies with optically interfaced solid-state spins , 2018, Nature Photonics.

[35]  M. Yamashita,et al.  Scaling Up Electronic Spin Qubits into a Three-Dimensional Metal-Organic Framework. , 2018, Journal of the American Chemical Society.

[36]  G. Chan,et al.  A Time-Dependent Formulation of Coupled-Cluster Theory for Many-Fermion Systems at Finite Temperature. , 2018, Journal of chemical theory and computation.

[37]  Alessandro Chiesa,et al.  Coherent Manipulation of a Molecular Ln-Based Nuclear Qudit Coupled to an Electron Qubit. , 2018, Journal of the American Chemical Society.

[38]  B. Peng,et al.  Green's Function Coupled-Cluster Approach: Simulating Photoelectron Spectra for Realistic Molecular Systems. , 2018, Journal of chemical theory and computation.

[39]  B. Gu,et al.  Optical absorption properties of laser-driven matter , 2018, Physical Review A.

[40]  Timothy C. Berkelbach,et al.  On the Relation between Equation-of-Motion Coupled-Cluster Theory and the GW Approximation. , 2018, Journal of chemical theory and computation.

[41]  J. Kono,et al.  Continuous transition between weak and ultrastrong coupling through exceptional points in carbon nanotube microcavity exciton–polaritons , 2018 .

[42]  Mohammad M. Sultan,et al.  Automated design of collective variables using supervised machine learning. , 2018, The Journal of chemical physics.

[43]  R. Ribeiro,et al.  Polariton chemistry: controlling molecular dynamics with optical cavities , 2018, Chemical science.

[44]  Vivek Tiwari,et al.  Spatially-resolved fluorescence-detected two-dimensional electronic spectroscopy probes varying excitonic structure in photosynthetic bacteria , 2018, Nature Communications.

[45]  D. Shultz,et al.  Excited State Magnetic Exchange Interactions Enable Large Spin Polarization Effects. , 2018, Journal of the American Chemical Society.

[46]  J. Morton,et al.  Storing quantum information in spins and high-sensitivity ESR. , 2018, Journal of magnetic resonance.

[47]  A. Yacoby,et al.  Probing condensed matter physics with magnetometry based on nitrogen-vacancy centres in diamond , 2018, 1804.08742.

[48]  N. V. van Hulst,et al.  Room-temperature ultrafast nonlinear spectroscopy of a single molecule , 2017, 1712.06501.

[49]  N. V. van Hulst,et al.  Room-temperature ultrafast nonlinear spectroscopy of a single molecule , 2017, Nature Photonics.

[50]  W. Wernsdorfer,et al.  Molecular spin qudits for quantum algorithms. , 2017, Chemical Society reviews.

[51]  L. Hollenberg,et al.  Non-Neurotoxic Nanodiamond Probes for Intraneuronal Temperature Mapping. , 2017, ACS nano.

[52]  M. Wasielewski,et al.  Spin-Selective Photoreduction of a Stable Radical within a Covalent Donor-Acceptor-Radical Triad. , 2017, Journal of the American Chemical Society.

[53]  A Ferhat,et al.  Operating Quantum States in Single Magnetic Molecules: Implementation of Grover's Quantum Algorithm. , 2017, Physical review letters.

[54]  Mark E Tuckerman,et al.  Stochastic Neural Network Approach for Learning High-Dimensional Free Energy Surfaces. , 2017, Physical review letters.

[55]  B. Peng,et al.  Highly Efficient and Scalable Compound Decomposition of Two-Electron Integral Tensor and Its Application in Coupled Cluster Calculations. , 2017, Journal of chemical theory and computation.

[56]  F. Tuna,et al.  Molecular single-ion magnets based on lanthanides and actinides: Design considerations and new advances in the context of quantum technologies , 2017 .

[57]  Edward F. Valeev,et al.  Communication: Explicitly correlated formalism for second-order single-particle Green's function. , 2017, The Journal of chemical physics.

[58]  N. Takagi,et al.  Single-molecule quantum dot as a Kondo simulator , 2017, Nature Communications.

[59]  Michael Towrie,et al.  Directing the path of light-induced electron transfer at a molecular fork using vibrational excitation. , 2017, Nature chemistry.

[60]  E. Goovaerts Optically Detected Magnetic Resonance (ODMR) , 2017 .

[61]  K. B. Whaley,et al.  Using coherence to enhance function in chemical and biophysical systems , 2017, Nature.

[62]  Jordan N. Nelson,et al.  Zero Quantum Coherence in a Series of Covalent Spin-Correlated Radical Pairs. , 2017, The journal of physical chemistry. A.

[63]  P. C. Humphreys,et al.  Entanglement distillation between solid-state quantum network nodes , 2017, Science.

[64]  J. Martín,et al.  Two-qubit entangling gates between distant atomic qubits in a lattice , 2017, 1703.01767.

[65]  Joseph M. Zadrozny,et al.  Forging Solid-State Qubit Design Principles in a Molecular Furnace , 2017 .

[66]  Alice M. Bowen,et al.  Shaped Pulses in EPR , 2016 .

[67]  F. Reinhard,et al.  Quantum sensing , 2016, 1611.02427.

[68]  Emanuel Gull,et al.  Finite temperature quantum embedding theories for correlated systems , 2016, 1611.00395.

[69]  Joseph M. Zadrozny,et al.  Long Coherence Times in Nuclear Spin-Free Vanadyl Qubits. , 2016, Journal of the American Chemical Society.

[70]  T. Ebbesen Hybrid Light-Matter States in a Molecular and Material Science Perspective. , 2016, Accounts of chemical research.

[71]  R. Friend,et al.  Strongly exchange-coupled triplet pairs in an organic semiconductor , 2016, Nature Physics.

[72]  Benedict J. Leimkuhler,et al.  Ensemble preconditioning for Markov chain Monte Carlo simulation , 2016, Statistics and Computing.

[73]  Shaul Mukamel,et al.  Nonlinear optical signals and spectroscopy with quantum light , 2016, 1605.06746.

[74]  Paolo Santini,et al.  A modular design of molecular qubits to implement universal quantum gates , 2016, Nature Communications.

[75]  Jeremy J. Baumberg,et al.  Single-molecule strong coupling at room temperature in plasmonic nanocavities , 2016, Nature.

[76]  E. Coronado,et al.  Enhancing coherence in molecular spin qubits via atomic clock transitions , 2016, Nature.

[77]  S. Upadhyay,et al.  Single-Molecule Investigation of Initiation Dynamics of an Organometallic Catalyst. , 2016, Journal of the American Chemical Society.

[78]  M. D. Lukin,et al.  Nuclear magnetic resonance detection and spectroscopy of single proteins using quantum logic , 2016, Science.

[79]  M. Chiesa,et al.  Room-Temperature Quantum Coherence and Rabi Oscillations in Vanadyl Phthalocyanine: Toward Multifunctional Molecular Spin Qubits. , 2016, Journal of the American Chemical Society.

[80]  Ronald L. Walsworth,et al.  Optical magnetic detection of single-neuron action potentials using quantum defects in diamond , 2016, Proceedings of the National Academy of Sciences.

[81]  Joseph M. Zadrozny,et al.  Millisecond Coherence Time in a Tunable Molecular Electronic Spin Qubit , 2015, ACS central science.

[82]  Alexei A Kananenka,et al.  Communication: Towards ab initio self-energy embedding theory in quantum chemistry. , 2015, The Journal of chemical physics.

[83]  C. Lutz,et al.  Electron paramagnetic resonance of individual atoms on a surface , 2015, Science.

[84]  Shaul Mukamel,et al.  Catching Conical Intersections in the Act: Monitoring Transient Electronic Coherences by Attosecond Stimulated X-Ray Raman Signals. , 2015, Physical review letters.

[85]  N. Ni,et al.  Scanned probe imaging of nanoscale magnetism at cryogenic temperatures with a single-spin quantum sensor. , 2015, Nature nanotechnology.

[86]  D. Nocera,et al.  Topological Magnon Bands in a Kagome Lattice Ferromagnet. , 2015, Physical review letters.

[87]  V. Sandoghdar,et al.  Few-photon coherent nonlinear optics with a single molecule , 2015, Nature Photonics.

[88]  V. Bulović,et al.  Plexciton Dirac points and topological modes , 2015, Nature Communications.

[89]  N. Govind,et al.  The role of cytosine methylation on charge transport through a DNA strand. , 2015, The Journal of chemical physics.

[90]  R. O. Jones,et al.  Density functional theory: Its origins, rise to prominence, and future , 2015 .

[91]  Jordan N. Nelson,et al.  Fast photo-driven electron spin coherence transfer: the effect of electron-nuclear hyperfine coupling on coherence dephasing , 2015 .

[92]  Daniel E. Stasiw,et al.  Determining the Conformational Landscape of σ and π Coupling Using para-Phenylene and "Aviram-Ratner" Bridges. , 2015, Journal of the American Chemical Society.

[93]  F. Benatti,et al.  Photon number statistics uncover the fluctuations in non-equilibrium lattice dynamics , 2015, Nature Communications.

[94]  T. Ghosh,et al.  Covalently Linked Dimer of Mn3 Single-Molecule Magnets and Retention of Its Structure and Quantum Properties in Solution. , 2015, Journal of the American Chemical Society.

[95]  J. Eisert,et al.  Advances in quantum teleportation , 2015, Nature Photonics.

[96]  P. Boyle,et al.  Synthesis, Characterization, and Photophysical Studies of an Iron(III) Catecholate-Nitronylnitroxide Spin-Crossover Complex. , 2015, Inorganic chemistry.

[97]  R. Naaman,et al.  Spintronics and chirality: spin selectivity in electron transport through chiral molecules. , 2015, Annual review of physical chemistry.

[98]  T. Ohshima,et al.  Single spin optically detected magnetic resonance with 60-90 GHz (E-band) microwave resonators. , 2015, The Review of scientific instruments.

[99]  Zhenwei Li,et al.  Molecular dynamics with on-the-fly machine learning of quantum-mechanical forces. , 2015, Physical review letters.

[100]  Hongbin Sun,et al.  Single-protein spin resonance spectroscopy under ambient conditions , 2015, Science.

[101]  Christiane P Koch,et al.  Controlling open quantum systems: tools, achievements, and limitations , 2015, Journal of physics. Condensed matter : an Institute of Physics journal.

[102]  D. Beratan,et al.  Two-Electron Transfer Pathways. , 2015, The journal of physical chemistry. B.

[103]  T. Takui,et al.  Adiabatic quantum computing with spin qubits hosted by molecules. , 2015, Physical chemistry chemical physics : PCCP.

[104]  Ryan D. Pensack,et al.  Room-temperature exciton coherence and dephasing in two-dimensional nanostructures , 2015, Nature Communications.

[105]  Petr Neugebauer,et al.  Room temperature quantum coherence in a potential molecular qubit , 2014, Nature Communications.

[106]  J. Shapiro,et al.  Quantum Illumination at the Microwave Wavelengths , 2014, 1410.4008.

[107]  R. Koch,et al.  Radio frequency scanning tunneling spectroscopy for single-molecule spin resonance. , 2014, Physical review letters.

[108]  Alán Aspuru-Guzik,et al.  Topologically protected excitons in porphyrin thin films. , 2014, Nature materials.

[109]  Florian Libisch,et al.  Embedded correlated wavefunction schemes: theory and applications. , 2014, Accounts of chemical research.

[110]  A. Akimov,et al.  Coherence penalty functional: a simple method for adding decoherence in Ehrenfest dynamics. , 2014, The Journal of chemical physics.

[111]  V. Vedral Quantum entanglement , 2014, Nature Physics.

[112]  S. A. Maier,et al.  Nonlinear interactions in an organic polariton condensate , 2014, 2014 Conference on Lasers and Electro-Optics (CLEO) - Laser Science to Photonic Applications.

[113]  K. Bathe,et al.  An explicit time integration scheme for the analysis of wave propagations , 2013 .

[114]  Dashiell L. P. Vitullo,et al.  Entangled photon-pair two-dimensional fluorescence spectroscopy (EPP-2DFS). , 2013, The journal of physical chemistry. B.

[115]  Max G. Lagally,et al.  Semiconductor quantum dot qubits , 2013 .

[116]  Shigeki Takeuchi,et al.  An entanglement-enhanced microscope , 2013, Nature Communications.

[117]  Eric J. Bylaska,et al.  Extending molecular simulation time scales: Parallel in time integrations for high-level quantum chemistry and complex force representations. , 2013, The Journal of chemical physics.

[118]  L. Hollenberg,et al.  Towards single-molecule NMR detection and spectroscopy using single spins in diamond , 2013, 1307.8220.

[119]  Yan-Kai Tzeng,et al.  Detection of a few metallo-protein molecules using color centers in nanodiamonds. , 2013, Nano letters.

[120]  Feng Liu,et al.  Prediction of a two-dimensional organic topological insulator. , 2013, Nano letters.

[121]  Sebastian Reineke,et al.  External Quantum Efficiency Above 100% in a Singlet-Exciton-Fission–Based Organic Photovoltaic Cell , 2013, Science.

[122]  Yu Zhang,et al.  Multidimensional attosecond resonant X-ray spectroscopy of molecules: lessons from the optical regime. , 2013, Annual review of physical chemistry.

[123]  M. D. Lukin,et al.  Optical magnetic imaging of living cells , 2013, Nature.

[124]  R. Schoelkopf,et al.  Superconducting Circuits for Quantum Information: An Outlook , 2013, Science.

[125]  C. Monroe,et al.  Scaling the Ion Trap Quantum Processor , 2013, Science.

[126]  D. Awschalom,et al.  Quantum Spintronics: Engineering and Manipulating Atom-Like Spins in Semiconductors , 2013, Science.

[127]  Neil B. Manson,et al.  The nitrogen-vacancy colour centre in diamond , 2013, 1302.3288.

[128]  Frank Neese,et al.  An efficient and near linear scaling pair natural orbital based local coupled cluster method. , 2013, The Journal of chemical physics.

[129]  Javier Prior,et al.  The role of non-equilibrium vibrational structures in electronic coherence and recoherence in pigment–protein complexes , 2013, Nature Physics.

[130]  William K. Peters,et al.  Electronic resonance with anticorrelated pigment vibrations drives photosynthetic energy transfer outside the adiabatic framework , 2012, Proceedings of the National Academy of Sciences.

[131]  Daniel G. Nocera,et al.  Fractionalized excitations in the spin-liquid state of a kagome-lattice antiferromagnet , 2012, Nature.

[132]  Frederick R Manby,et al.  Density functional theory embedding for correlated wavefunctions: improved methods for open-shell systems and transition metal complexes. , 2012, The Journal of chemical physics.

[133]  Eugenio Coronado,et al.  Magnetic polyoxometalates: from molecular magnetism to molecular spintronics and quantum computing. , 2012, Chemical Society reviews.

[134]  S. Mukamel,et al.  Entangled Valence Electron-Hole Dynamics Revealed by Stimulated Attosecond X-ray Raman Scattering. , 2012, The journal of physical chemistry letters.

[135]  C. Boehme,et al.  Nuclear-Spin Quantum Memory Poised to Take the Lead , 2012, Science.

[136]  Alán Aspuru-Guzik,et al.  Photonic quantum simulators , 2012, Nature Physics.

[137]  Jennifer P Ogilvie,et al.  Probing Photosynthetic Energy and Charge Transfer with Two-Dimensional Electronic Spectroscopy. , 2012, The journal of physical chemistry letters.

[138]  H. Lischka,et al.  Multiconfiguration self-consistent field and multireference configuration interaction methods and applications. , 2012, Chemical reviews.

[139]  Fernando Luis,et al.  Design of magnetic coordination complexes for quantum computing. , 2012, Chemical Society reviews.

[140]  C. Beenakker,et al.  Search for Majorana Fermions in Superconductors , 2011, 1112.1950.

[141]  M. Shapiro,et al.  Quantum Control of Molecular Processes: SHAPIRO:QUANTUM CONTR. E2 O-BK , 2011 .

[142]  J Fan,et al.  Invited review article: Single-photon sources and detectors. , 2011, The Review of scientific instruments.

[143]  K. R. Brown,et al.  Microwave quantum logic gates for trapped ions , 2011, Nature.

[144]  Sandeep Sharma,et al.  The density matrix renormalization group in quantum chemistry. , 2011, Annual review of physical chemistry.

[145]  M. Wasielewski,et al.  Manipulating photogenerated radical ion pair lifetimes in wirelike molecules using microwave pulses: molecular spintronic gates. , 2011, Journal of the American Chemical Society.

[146]  S. Lloyd,et al.  Advances in quantum metrology , 2011, 1102.2318.

[147]  Claus Kiefer,et al.  Quantum Measurement and Control , 2010 .

[148]  I. Chuang,et al.  Quantum Computation and Quantum Information: Bibliography , 2010 .

[149]  G. Granucci,et al.  Including quantum decoherence in surface hopping. , 2010, The Journal of chemical physics.

[150]  J. McCusker,et al.  Vibrational coherence in the excited state dynamics of Cr(acac)3: probing the reaction coordinate for ultrafast intersystem crossing , 2010 .

[151]  S. Mukamel,et al.  Ultrafast double-quantum-coherence spectroscopy of excitons with entangled photons. , 2010, Physical review. A, Atomic, molecular, and optical physics.

[152]  J. Whitfield,et al.  Simulating chemistry using quantum computers. , 2010, Annual review of physical chemistry.

[153]  Masoud Mohseni,et al.  Quantum state and process tomography of energy transfer systems via ultrafast spectroscopy , 2010, Proceedings of the National Academy of Sciences.

[154]  T. Goodson,et al.  Spatial control of entangled two-photon absorption with organic chromophores. , 2010, Journal of the American Chemical Society.

[155]  L. Balents Spin liquids in frustrated magnets , 2010, Nature.

[156]  C. Kane,et al.  Topological Insulators , 2019, Electromagnetic Anisotropy and Bianisotropy.

[157]  A. Candini,et al.  Spin entanglement in supramolecular structures , 2010, Nanotechnology.

[158]  Hyoyoung Lee,et al.  Ferromagnetic nanoscale electron correlation promoted by organic spin-dependent delocalization. , 2009, Journal of the American Chemical Society.

[159]  Marco Affronte,et al.  Engineering the coupling between molecular spin qubits by coordination chemistry. , 2009, Nature nanotechnology.

[160]  Michael T. Colvin,et al.  Ultrafast intersystem crossing and spin dynamics of photoexcited perylene-3,4:9,10-bis(dicarboximide) covalently linked to a nitroxide radical at fixed distances. , 2009, Journal of the American Chemical Society.

[161]  Chang-Qi Ma,et al.  Thiophene dendrimers as entangled photon sensor materials. , 2009, Journal of the American Chemical Society.

[162]  D. Loss,et al.  Spin-electric coupling in molecular magnets. , 2008, Physical review letters.

[163]  T. Mitra,et al.  Quantum oscillations in a molecular magnet , 2008, Nature.

[164]  Eugene E. Haller,et al.  Solid-state quantum memory using the 31P nuclear spin , 2008, Nature.

[165]  E. Vanden-Eijnden,et al.  Single-sweep methods for free energy calculations. , 2007, The Journal of chemical physics.

[166]  Andrew H Marcus,et al.  Fluorescence-detected two-dimensional electronic coherence spectroscopy by acousto-optic phase modulation. , 2007, The Journal of chemical physics.

[167]  L. Jiang,et al.  Quantum Register Based on Individual Electronic and Nuclear Spin Qubits in Diamond , 2007, Science.

[168]  D. Loss,et al.  Spin qubits with electrically gated polyoxometalate molecules. , 2007, Nature Nanotechnology.

[169]  S. Girvin,et al.  Charge-insensitive qubit design derived from the Cooper pair box , 2007, cond-mat/0703002.

[170]  R. Bartlett,et al.  Coupled-cluster theory in quantum chemistry , 2007 .

[171]  T. Goodson,et al.  Entangled photon absorption in an organic porphyrin dendrimer. , 2006, The journal of physical chemistry. B.

[172]  Marat Valiev,et al.  Hybrid coupled cluster and molecular dynamics approach: application to the excitation spectrum of cytosine in the native DNA environment. , 2006, The Journal of chemical physics.

[173]  Michael J. Hartmann,et al.  Strongly interacting polaritons in coupled arrays of cavities , 2006, 2007 European Conference on Lasers and Electro-Optics and the International Quantum Electronics Conference.

[174]  A.I.Lvovsky,et al.  Continuous-variable optical quantum state tomography , 2005, quant-ph/0511044.

[175]  Kazuo Kitaura,et al.  Coupled-cluster theory based upon the fragment molecular-orbital method. , 2005, The Journal of chemical physics.

[176]  Marat Valiev,et al.  Fast electron correlation methods for molecular clusters in the ground and excited states , 2005 .

[177]  Timo O. Reiss,et al.  Optimal control of coupled spin dynamics: design of NMR pulse sequences by gradient ascent algorithms. , 2005, Journal of magnetic resonance.

[178]  E. Yablonovitch,et al.  Electrical detection of the spin resonance of a single electron in a silicon field-effect transistor , 2004, Nature.

[179]  D. Awschalom,et al.  Coherent Spin Transfer Between Molecularly Bridged Quantum Dots , 2003, Science.

[180]  M. Teich,et al.  Demonstration of dispersion-canceled quantum-optical coherence tomography. , 2003, Physical review letters.

[181]  W. Wernsdorfer,et al.  Exchange-biased quantum tunnelling in a supramolecular dimer of single-molecule magnets , 2002, Nature.

[182]  Wolfgang Harneit,et al.  Fullerene-based electron-spin quantum computer , 2002 .

[183]  Celestino Angeli,et al.  N-electron valence state perturbation theory: a fast implementation of the strongly contracted variant , 2001 .

[184]  W. Zurek Decoherence, einselection, and the quantum origins of the classical , 2001, quant-ph/0105127.

[185]  W. Zurek,et al.  Introducing Quantum Discord , 2001, quant-ph/0105072.

[186]  Y. Shih,et al.  Two-photon diffraction and quantum lithography. , 2001, Physical review letters.

[187]  G. Russo,et al.  Implicit-explicit Runge-Kutta schemes for stiff systems of differential equations , 2000 .

[188]  D. DiVincenzo,et al.  The Physical Implementation of Quantum Computation , 2000, quant-ph/0002077.

[189]  Daniel A. Lidar,et al.  How to Teleport Superpositions of Chiral Amplitudes , 1998, quant-ph/9807020.

[190]  Daniel A. Lidar,et al.  Decoherence-Free Subspaces for Quantum Computation , 1998, quant-ph/9807004.

[191]  Bahaa E. A. Saleh,et al.  Entanglement-Induced Two-Photon Transparency , 1997 .

[192]  G. Lindblad On the existence of quantum subdynamics , 1996 .

[193]  P. Rossky,et al.  Quantum decoherence and the isotope effect in condensed phase nonadiabatic molecular dynamics simulations , 1996 .

[194]  Kimble,et al.  Nonclassical excitation for atoms in a squeezed vacuum. , 1995, Physical review letters.

[195]  Shih,et al.  Optical imaging by means of two-photon quantum entanglement. , 1995, Physical review. A, Atomic, molecular, and optical physics.

[196]  R. A. Harris,et al.  Superpositions of Handed Wave Functions , 1995, Science.

[197]  John F. Stanton,et al.  The equation of motion coupled‐cluster method. A systematic biorthogonal approach to molecular excitation energies, transition probabilities, and excited state properties , 1993 .

[198]  Charles H. Bennett,et al.  Teleporting an unknown quantum state via dual classical and Einstein-Podolsky-Rosen channels. , 1993, Physical review letters.

[199]  Marcel Nooijen,et al.  Coupled cluster approach to the single-particle Green's function , 1992 .

[200]  Kerstin Andersson,et al.  Second-order perturbation theory with a CASSCF reference function , 1990 .

[201]  Dante Gatteschi,et al.  Electron Paramagnetic Resonance of Exchange Coupled Systems , 1990 .

[202]  B. Halperin Quantized Hall conductance, current carrying edge states, and the existence of extended states in a two-dimensional disordered potential , 1982 .

[203]  Alan J. Heeger,et al.  Solitons in polyacetylene , 1979 .

[204]  J. Bell On the Einstein-Podolsky-Rosen paradox , 1964 .

[205]  Barrington. Moore The Outlook , 1956 .

[206]  Albert Einstein,et al.  Can Quantum-Mechanical Description of Physical Reality Be Considered Complete? , 1935 .

[207]  R. Ribeiro,et al.  Polariton chemistry: controlling molecular dynamics with optical cavities , 2018, Chemical science.

[208]  J. Morton,et al.  Pulse Techniques for Quantum Information Processing , 2016 .

[209]  Stefan Goedecker,et al.  Extending molecular simulation time scales : Parallel in time integrations for high-level quantum chemistry and complex force representations , 2014 .

[210]  Yize Jin,et al.  Topological insulators , 2014, Topology in Condensed Matter.

[211]  D. Beratan,et al.  Coherence in electron transfer pathways. , 2011, Procedia chemistry.

[212]  S. Polyakov,et al.  : Single-photon sources and detectors , 2011 .

[213]  M. Tiersch,et al.  Entanglement and decoherence : foundations and modern trends , 2010 .

[214]  P. Bahr,et al.  Sampling: Theory and Applications , 2020, Applied and Numerical Harmonic Analysis.

[215]  G. Milburn,et al.  Quantum Measurement and Control: Frontmatter , 2009 .

[216]  Gunnar Jeschke,et al.  Principles of pulse electron paramagnetic resonance , 2001 .

[217]  W. Krauth,et al.  Dynamical mean-field theory of strongly correlated fermion systems and the limit of infinite dimensions , 1996 .

[218]  F. Wilczek,et al.  Statistical mechanics of anyons , 1985 .

[219]  Donald Robinson,et al.  Nobel Prizes , 1970, Nature.