School of Physics and Astrophysics

Publications of the quantum computing group

Selected publications :

  • A. Mahasinghe, J. A. Izaac, J. B. Wang, and J. K. Wijerathna “Phase-modified CTQW unable to distinguish strongly regular graphs efficiently ”, Journal of Physics A 48, 265301 (2015) 
  • G. R. Carson, T. Loke, J. B. Wang, “Entanglement dynamics of two-particle quantum walks”, Quantum Information Processing, DOI 10.1007/s11128-015-1047-4 (2015)   
  • J. A. Izaac and J. B. Wang, “pyCTQW: A continuous-time quantum walk simulator on distributed memory computers”, Computer Physics Communications 186, 81–92 (2015)
  • J. P. Rodriguez, Z. J.  Li and J. B. Wang, “Discord and entanglement of two-particle quantum walk on cyclic graphs”, Quantum Information Processing 14:119–133 (2015) 
  • Z. J. Li and J. B. Wang, “An analytical study of quantum walk through glued-tree graphs”, Journal of Physics A, (minor corrections required, 2015)
  • B. L. Douglas, S. J. Gates, B. L. Segler, J. B. Wang, “Automorphism Properties and Classification of Adinkras”, Advances in Mathematical Physics, (minor corrections required, 2015)

  • K. Manouchehri and J.B. Wang, “Physical Implementation of Quantum Walks” (Springer-Verlag, 2014)
  • J. P. Rodriguez and J.B. Wang, “Quantum Billiards Under the Influence of External Magnetic Field”, Journal of Computational and Theoretical Nanoscience 7, 2094-2099 (2010)
  • M.L. Katz and J.B. Wang, “Cluster state computation with quantum-dot charge qubits”, Advances in Mathematical Physics 2010, 482598 (2010)
  • P. Welna and J.B. Wang, “Electron transport via surface acoustic waves”, Journal of Computational and Theoretical Nanoscience 7, 1737-1746 (2010)
  • Abbott, P.C., Keady, G., Tyler, S.J., 'Euler's disk: examples used in engineering and applied mathematics teaching', ANZIAM Journal, 51, C360-C376 (2010)
  • Abbott, P.C., 'On the Perimeter of an Ellipse', The Mathematica Journal, 11, 172-185 (2009)
  • K. Manouchehri and J.B. Wang, “Quantum random walks without walking”, Physical Review A 80, 060304R (2009)
  • B.L. Douglas and J.B. Wang, “Erratum: Efficient quantum circuit implementation of quantum walks [Phys. Rev. A 79, 052335 (2009)], Physical Review A 80, 059901E (2009)
  • J.B. Wang and C. Hines, “Electronic structure of artificial atoms”, Journal of Physics: Conference Series 185, 012053 (2009)
  • K. Manouchehri and J.B. Wang, “Quantum random walk with Rb atoms”, Journal of Physics: Conference Series 185, 012026 (2009)
  • M.L. Katz and J.B. Wang, “Cluster state entanglement of charge qubits”, Journal of Physics: Conference Series 185, 012019 (2009)
  • B.L. Douglas and J.B. Wang, “Efficient quantum circuit implementation of quantum walks”, Physical Review A 79, 052335 (2009)
  • B.L. Douglas and J.B. Wang, “Classical approach to the graph isomorphism problem using quantum walks”, Journal of Physics A 41, 075303 (2008)
  • K. Manouchehri and J.B. Wang, “Solid state implementation of quantum random walks on general graphs”, American Institute of Physics Conference Proceedings 1074, 56-61 (2008)
  • K. Manouchehri and J.B. Wang, “Quantum walks in an array of quantum dots”, Journal of Physics A 41, 065304 (2008)
  • C. Dinneen and J.B. Wang, “Phase dynamics in charge qubits”, Journal of Computational and Theoretical Nanoscience 5, 2102-2105 (2008)
  • K. Manouchehri and J.B. Wang, “Continuous-time quantum random walks require discrete space”, Journal of Physics A 40, 13773–13785 (2007)
  • C. Hines, K. Jacobs and J.B. Wang, “Readout of solid-state charge qubits using a single-electron pump”, Journal of Physics A 40, F609–F616 (2007)
  • J.B. Wang and S. Midgley (invited review article), “Electron Transport in Quantum Waveguides”, Journal of Computational and Theoretical Nanoscience, 4, 408-432 (2007)
  • J.B. Wang and R. D. Muhandiramge, “A novel approach to quantum dot structure calculation”, New Quantum Chemistry Research (Nova Science Publishers, New York, 2007)
  • N. Riste, B. McGrath, J.B. Wang and J. Pan, “Acoustic Wave Propagator—A Split Region Implementation”, The Mathematica Journal, 10:3, 543-561 (2007)
  • J.B. Wang and R. D. Muhandiramge, “A novel approach to quantum dot structure calculation”, New Quantum Chemistry Research (Nova Science Publishers, 2007)
  • Abbott, P.C., 'Asymptotic expansion of the Keesom integral', Journal of Physics A: Mathematical and Threoretical, 40, 8599-8600 (2007)
  • J.B. Wang, “Quantum waveguide theory”, Handbook of Theoretical and Computational Nanotechnology (vol 3, chapter 9, p541-604, American Scientific Publishers, 2006)
  •  J.B. Wang, C. Hines and R. D. Muhandiramge, “Electronic structure of quantum dots and other nanosystems”, Handbook of Theoretical and Computational Nanotechnology (vol 10, chapter 10, p545-604, American Scientific Publishers, 2006)
  • K. Manouchehri and J.B. Wang, “Transmission spectra of two-dimensional quantum structures”, Journal of Computational and Theoretical Nanoscience, 3, 249–256 (2006)
  • R. D. Muhandiramge and J.B. Wang, “Spin-Adapted States: a Basis for Quantum Dot Structure Calculation”, International Journal of Quantum Chemistry, 106, 27–53 (2006)
  • J.B. Wang and J. Pan , “Acoustical wave propagator with modified Chebyshev expansion”, Computer Physics Communications, 174, 187–190 (2006)
  • R. D. Muhandiramge and J.B. Wang, “Electronic Structure of Multi-Electron Quantum Dots”, The Mathematica Journal, 10:2, 396-414 (2006)
  • R. Green and J.B. Wang (invited submission), “Quantum dynamics of gate operations on charge qubits”, Journal of Computational and Theoretical Nanoscience, 1, 309-316 (2004)
  • P.E. Falloon, P.C. Abbott and J.B. Wang, “Theory and computation of spheroidal wavefunctions”, Journal of Physics A, 36, 5477-5495 (2003)
  • S. Midgley and J.B. Wang, “Electron wavepacket dynamics under the influence of external magnetic fields”, Physical Review E 67, 0467021-0467026 (2003)
  • H.M. Sun, J.B. Wang and J. Pan, “An effective algorithm for simulating acoustical wave propagation”, Computer Physics Communications, 151, 241-249 (2003)
  • J.B. Wang and C. Hines (invited submission), “Anisotropic quantum dots”, Journal of Computational Electronics, 1, 491-501 (2003)
  • J.B. Wang, “Numerical Differentiation by FFT”, The Mathematica Journal, 8, 383-388 (2002)
  • Parkes, E.J., Duffy, B.R., Abbott, P.C., 'The Jacobi elliptic-function method for finding periodic-wave solutions to nonlinear evolution equations', Physics Letters A, 259, 280-286 (2002)
  • S.A. McCarthy, J.B. Wang, and P.C. Abbott, “Electronic structure of an N-electron quantum dot”, Computer Physics Communications, 141, 175-204 (2001)
  • S. Midgley and J.B. Wang, “Single electron transport through two-dimensional quantum wires with flanges”, Physical Review B, 64, 153304-153309 (2001)
  • P. Falloon and J.B. Wang, “Electronic wave propagation with Mathematica”, Computer Physics Communications, 134, 167-182 (2001)
  • S. Midgley and J.B. Wang, “Complex absorbing potential and Chebyshev propagation scheme”, Physical Review E 61, 920-925 (2000)
  • J. Pan and J.B. Wang, “Acoustical wave propagator”, Journal of the Acoustical Society of America 108, 481-487, (2000)
  • J.B. Wang and S. Midgley, “Time-dependent approach to electron scattering in nano structures : a study of serial stubs”, Physica B 284, 1962-1963 (2000)
  • S. Midgley and J.B. Wang, “Time-dependent quantum waveguide theory: a study of nano ring structures”, Australian Journal of Physics 53, 77-85 (2000)
  • Maslen, M.J., Abbott, P.C., 'Automation of the lifting factorisation of wavelet transforms', Computer Physics Communications, 127, 309-326 (2000)
  • Abbott, P.C., 'Generalized Laguerre polynomials and quantum mechanics', Journal of Physics A: Mathematics and General, 33, 7659-7660 (2000)
  • Hurley, A.C., Moodie, A.F., Johnson, A.W.S., Abbott, P.C., 'The role of projection operators in the theory of N-beam diffraction and the inversion of three-beam elastic scattering intensities', Acta Crystallographica Section A, 55, 216-219 (1999)
  • J.B. Wang and S. Midgley, “Time-dependent approach to electron transport in nano electronic devices”, Physical Review B 60, 13668-13675 (1999)
  • J.B. Wang, N. Riste, S. Midgley, A.T. Stelbovics and J.F. Williams, “Time-dependent approach to s-wave positron-hydrogen scattering”, Australian Journal of Physics 52, 595-602 (1999)
  • J.B. Wang, C.M. Maloney and D.H. Madison, “Coherent analysis of the singlet-triplet mixed 1s4f state of helium”, Journal of Physics: B. Atomic, Molecular and Optical Physics, 32, 1067-1071 (1999)
  • J.B. Wang and T.T. Scholz, “Time-dependent approach to scattering by Chebyshev expansion and FFT”, Physical Review A, 57, 3554-3559 (1998)
  • J.B. Wang, H.Y. Wu, J.F. Williams and A.G. Mikosza, “Determination of collision site pressures – a Monte Carlo approach”, Journal of Physics: B. Atomic, Molecular and Optical Physics, 31, 1603-1610 (1998)
  • D.H. Madison, C.M. Maloney and J.B. Wang, “Integral and differential cross section for electron impact excitation of 12 of the lowest states of argon”, Journal of Physics: B. Atomic, Molecular and Optical Physics, 31, 873-893 (1998)
  • J.B. Wang, J.F. Williams and C.J. Carter, “A Monte Carlo study of radiation trapping effects”, The Australian Journal of Physics, 50, 645-653 (1997)
  • A.G. Mikosza, J.F. Williams and J.B. Wang, “Complete determination of excitation amplitudes and phases for the 3^1 D state of helium”, Physical Review Letters. 79, 3375-3378 (1997)
  • J.B. Wang and J.F. Williams, “Angular and polarisation correlations between cascade photons”, The Australian Journal of Physics, 49, 335-346 (1996)
  • J.B. Wang, P. C. Abbott, and J.F. Williams, “Visualisation of atomic orbitals”, Computers in Physics, 10, 69-82 (1996)
  • R. Hippler R., C.D. Lin, B. Siegmann, N. Toshima, and J.B. Wang, “Alignment of H(2p) in H+-H collisions”, The Canadian Journal of Physics, 74, 959-961 (1996)
  • J.F. Williams, A.G. Mikosza and J.B. Wang, “Review of advances in describing the 3^1 D state excitation of helium”, The Canadian Journal of Physics, 74, 906-913 (1996)
  • J.B. Wang, “Time evolution and decay of an excited atom in weak electric field”, Computers in Physics, 10, 400-406 (1996)
  • A.G. Mikosza, R. Hippler, J.B. Wang and J.F. Williams, “Partial cross sections for excitation of He (3^1 D) by electron impact”, Physical Review A, 53, 3287-3294 (1996)
  • J.B. Wang, J.F. Williams, A.T. Stelbovics, J.E. Furst and D.H. Madison, “Coherent excitation of the singlet-triplet mixed 1s4f state of helium”, Physical Review A, 52, 2885-2900 (1995)
  • J.B. Wang, A.G. Mikosza, R. Hippler, and J.F. Williams, “Resonance trapping effects in stepwise electron/laser excitation”, The Journal of Electron Spectroscopy and Related Phenomena, 74, 121-128 (1995)
  • Rowe, A., Abbott, P.C., 'Daubechies Wavelets and Mathematica', Computers in Physics, 9, 6, pp. 635-48 (1995)
  • J.F. Williams and J.B. Wang, “Some recent advances in the electron impact excitation of hydrogen and helium”, Advances in Atomic, Molecular and Optical Physics 32, edited by B. Bederson and A. Dalgarno (Academic Press: London, 1994)
  • A.G. Mikosza, R. Hippler, J.B. Wang and J.F. Williams, “Excitation of He states 3^1 D by electron impact”, Zeitschrift für Physik: D. Atoms, Molecules and Clusters, 30, 129-133 (1994)
  • J.B. Wang, A.T. Stelbovics and J.F. Williams, “Theoretical description of coincidences (e, gamma1, gamma2) in electron-atom collision”, Zeitschrift für Physik: D. Atoms, Molecules and Clusters, 30, 119-127 (1994)
  • A.G. Mikosza, R. Hippler, J.B. Wang, J.F. Williams and A.B. Wedding, “Photon angular correlations and pressure-dependent effects of helium 2^1 P and 3^1 P excitation by electrons”, Journal of Physics: B. Atomic, Molecular and Optical Physics, 27, 1429-1451 (1994)
  • A.G. Mikosza, R. Hippler, J.B. Wang and J.F. Williams, “Determination of rank four multipoles and of the partial cross sections for He ( 3^1 D) excitation by electron impact”, Physical Review Letters, 71, 235-238 (1993)
  • J.B. Wang and J.F. Williams, “A study of helium 3^1 D->2^1 P->1^1 S cascade and algebraic computing”, Computer Physics Communications, 75, 275-282 (1993)
  • J.B. Wang, “Linewidth variation in the spectrum of NaI”, Journal of Quantitative Spectroscopy and Radiative Transfer, 49, 329-333 (1993)
  • J.F. Williams, A.G. Mikosza, J.B. Wang and A.B. Wedding, “Relaxation Rates of the State Multipoles for 3^1 P state excitation of helium”, Physical Review Letters, 69, 757-760 (1992)
  • J. Wang, A.J. Blake, D.G. McCoy and L. Torop, “Construction of molecular potential energy curves by an optimization method”, Chemical Physics, 150, 13-18 (1991)
  • J. Wang, A.J. Blake, D.G. McCoy and L. Torop, “Analytical Potential Curves for the X ^1 sigma+ and 0+ States of NaI”, Chemical Physics Letters, 175, 225-230 (1990)
  • L. Torop, J. Wang, A.J. Blake and D.G. McCoy, “Effects of the close approach of potential curves in photo-absorption by diatomic molecules: IV. Treating the near diabatic and near adiabatic cases”, Journal of Quantitative Spectroscopy and Radiative Transfer, 43, 457-463 (1989)
  • J. Wang, A.J. Blake and L. Torop, “Calculated vibrational intensities for photoionization of a mixed Rydberg-valence ^3 sigma state of O_2”, Journal of Chemical Physics, 89, 4654-4656 (1988)
  • J. Wang, A.J. Blake, D.G. McCoy and L. Torop, “Effects of the close approach of potential curves in photo-absorption by diatomic molecules: III. Structure and isotope shift of the 124.4 nm band of oxygen”, Journal of Quantitative Spectroscopy and Radiative Transfer, 40, 501-510 (1988)
  • J. Wang, D.G. McCoy, A.J. Blake and L. Torop, “Effects of the close approach of potential curves in photo-absorption by diatomic molecules: II. Temperature dependence of the O_2 cross section in the region 130–160 nm”, Journal of Quantitative Spectroscopy and Radiative Transfer, 38, 19-27 (1987)
  • L. Torop, D.G. Coy, A.J. Blake, J. Wang and T. Scholz, “Effects of the close approach of potential curves in photo-absorption by diatomic molecules: I. Theory and computational procedures”, Journal of Quantitative Spectroscopy and Radiative Transfer, 38, 9-18 (1987)
 

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