Complete 3-Qubit Grover search on a programmable quantum computer

[1]  Dmitri Maslov,et al.  Experimental comparison of two quantum computing architectures , 2017, Proceedings of the National Academy of Sciences.

[2]  Dmitri Maslov,et al.  Basic circuit compilation techniques for an ion-trap quantum machine , 2016, ArXiv.

[3]  S. Debnath,et al.  Demonstration of a small programmable quantum computer with atomic qubits , 2016, Nature.

[4]  Dmitri Maslov,et al.  On the advantages of using relative phase Toffolis with an application to multiple control Toffoli optimization , 2015, ArXiv.

[5]  C Figgatt,et al.  Optimal quantum control of multimode couplings between trapped ion qubits for scalable entanglement. , 2014, Physical review letters.

[6]  C. Monroe,et al.  Large-scale modular quantum-computer architecture with atomic memory and photonic interconnects , 2012, 1208.0391.

[7]  Timothy Andrew Manning,et al.  Quantum Information Processing with Trapped Ion Chains , 2014 .

[8]  L.-M. Duan,et al.  Correcting detection error in quantum computation and state engineering through data processing , 2012 .

[9]  L.-M. Duan,et al.  Correcting detection errors in quantum state engineering through data processing , 2012, 1201.4379.

[10]  Elham Kashefi,et al.  Demonstration of Blind Quantum Computing , 2011, Science.

[11]  Klaus Molmer,et al.  Efficient Grover search with Rydberg blockade , 2011, 1102.3573.

[12]  Isaac L. Chuang,et al.  Quantum Computation and Quantum Information (10th Anniversary edition) , 2011 .

[13]  J Mizrahi,et al.  Entanglement of atomic qubits using an optical frequency comb. , 2010, Physical review letters.

[14]  L. DiCarlo,et al.  Demonstration of two-qubit algorithms with a superconducting quantum processor , 2009, Nature.

[15]  T. Monz,et al.  Realization of the quantum Toffoli gate with trapped ions. , 2008, Physical review letters.

[16]  S. Olmschenk,et al.  Manipulation and detection of a trapped Yb+ hyperfine qubit , 2007, 0708.0657.

[17]  C. Monroe,et al.  Arbitrary-speed quantum gates within large ion crystals through minimum control of laser beams , 2005, quant-ph/0508037.

[18]  M. Acton,et al.  Implementation of Grover's quantum search algorithm in a scalable system , 2005, quant-ph/0510066.

[19]  M D Barrett,et al.  Implementation of the Semiclassical Quantum Fourier Transform in a Scalable System , 2005, Science.

[20]  A. Zeilinger,et al.  Experimental one-way quantum computing , 2005, Nature.

[21]  M. Szegedy,et al.  Quantum algorithms for the triangle problem , 2003, SODA '05.

[22]  Mehdi Mhalla,et al.  Quantum Query Complexity of Some Graph Problems , 2004, SIAM J. Comput..

[23]  C. Monroe,et al.  Architecture for a large-scale ion-trap quantum computer , 2002, Nature.

[24]  N. Bhattacharya,et al.  Implementation of quantum search algorithm using classical Fourier optics. , 2001, Physical review letters.

[25]  Gerard J. Milburn,et al.  Ion Trap Quantum Computing with Warm Ions , 2000 .

[26]  L. Vandersypen,et al.  Implementation of a three-quantum-bit search algorithm , 1999, quant-ph/9910075.

[27]  E. Solano,et al.  DETERMINISTIC BELL STATES AND MEASUREMENT OF THE MOTIONAL STATE OF TWO TRAPPED IONS , 1999, quant-ph/9902004.

[28]  Klaus Molmer,et al.  Multiparticle Entanglement of Hot Trapped Ions , 1998, quant-ph/9810040.

[29]  N. Gershenfeld,et al.  Experimental Implementation of Fast Quantum Searching , 1998 .

[30]  Timothy F. Havel,et al.  Nuclear magnetic resonance spectroscopy: an experimentally accessible paradigm for quantum computing , 1997, quant-ph/9709001.

[31]  Lov K. Grover Quantum Mechanics Helps in Searching for a Needle in a Haystack , 1997, quant-ph/9706033.

[32]  Charles H. Bennett,et al.  Strengths and Weaknesses of Quantum Computing , 1997, SIAM J. Comput..

[33]  G. Brassard,et al.  Tight bounds on quantum searching , 1996, quant-ph/9605034.

[34]  Barenco,et al.  Elementary gates for quantum computation. , 1995, Physical review. A, Atomic, molecular, and optical physics.

[35]  Physical Review , 1965, Nature.