Email:plove@haverford.edu
Phone: 795-6505
Office: KINSC L105

Peter Love - Assistant Professor of Physics at Haverford College

Publications

  1. Quantum algorithms for the simulation of chemical dynamics, Ivan Kassal, Stephen P. Jordan, Peter J. Love, Masoud Mohseni, Alan Aspuru-Guzik,  105, 18681–18686, Proc Natl Acad of Sci USA, (2008), http://arxiv.org/abs/0801.2986
  2. Constructive Quantum Shannon Decomposition from Cartan Involutions, Byron Drury, Peter J. Love,  J. Phys. A. Math. Theor., 41 (2008) 395305, http://arxiv.org/abs/0806.4015
  3. Realizable Hamiltonians for Universal Adiabatic Quantum Computers, Jacob D. Biamonte, Peter J. Love, Phys. Rev. A, 78, 012352 (2008), http://www.arxiv.org/abs/0704.1287 
  4. Thermally assisted adiabatic quantum computation M.H.S. Amin, Peter J. Love, C. J. S. Truncik,  Phys. Rev. Lett. 100 060503, (2008), http://www.arxiv.org/abs/cond-mat/0609332
  5. A characterization of global entanglement, Peter J. Love, Alec Maassen van den Brink, A.Yu. Smirnov, M.H.S. Amin, M. Grajcar, E. Il'ichev, A. Izmalkov, A.M. Zagoskin, quant-ph/0602143
  6. Four-flux-qubit device with mixed couplings, M. Grajcar, A. Izmalkov, S.H.W. van der Ploeg, S. Linzen, T. Plecenik, Th. Wagner, U. Huebner, E. Il'ichev, H.-G. Meyer, A.Yu. Smirnov, Peter J. Love, Alec Maassen van den Brink, M.H.S. Amin, S. Uchaikin, A.M. Zagoskin, Phys. Rev. Lett. , 96 , 047006 (2006)
  7. Simulated Quantum Computation of Molecular Energies, Alan Aspuru-Guzik, Anthony Dutoi, Peter J. Love, Martin Head-Gordon, Science, 309, 5741, (2005)
  8. From Dirac to Diffusion: decoherence in quantum lattice gases , Peter J. Love, Bruce M. Boghosian, Quantum Information Processing, 4 335-354 (2005), quant-ph/0507022
  9. Type-II quantum algorithms , Peter J. Love, Bruce M. Boghosian, Physica A , 362 210-214 (2006) quant-ph/0506244
  10. Lattice-gas simulations of dynamical geometry in one-dimension , Peter J. Love, Bruce M. Boghosian, David A. Meyer, Philosophical Transactions of the Royal Society, 362 1667-1675 (2004)
  11. Entropic lattice-Boltzmann model for Burgers equation , Bruce M. Boghosian, Peter J. Love, Jeffrey Yepez, Philosophical Transactions of the Royal Society, 362 169-1701 (2004)
  12. On the dependence of the Navier Stokes equations on the distribution of molecular velocities , Peter J. Love, Bruce M. Boghosian Physica D, 193 182-194 (2004)
  13. Quaternionic Madelung transformation and non-Abelian fluid dynamics , Peter J. Love, Bruce M. Boghosian Physica A 332 47-59 (2004)
  14. Galilean invariant multi-speed entropic lattice-Boltzmann models , Bruce M. Boghosian, Peter J. Love, J. Yepez. Physica D 193 (2004) 169-181
  15. Galilean invariant lattice-Boltzmann models with H-theorem, Bruce M. Boghosian, Peter J. Love, Peter V. Coveney, Illya V. Karlin, S. Succi, J. Yepez, Physical Review E 68 (2) 025103 2003
  16. Simulations of amphiphilic fluids using mesoscale lattice-Boltzmann and lattice-gas methods , Peter J. Love, M. Nekovee, J. Chin, N. Gonzalez-Segredo, P.V. Coveney, Computer Physics Communications 153 (3) 340-358 2003.
  17. Toward the simplest hydrodynamic lattice gas model Bruce M. Boghosian, Peter J. Love, David A. Meyer, Philosophical Transactions of the Royal Society A 360 (1792): 333-344 March 15 2002
  18. A particulate basis for a lattice-gas model of amphiphilic fluids , Peter J. Love, Philosophical Transactions of the Royal Society A 360 (1792): 345-355 March 15 2002
  19. Three-dimensional hydrodynamic lattice-gas simulations of ternary amphiphilic fluids under shear flow Peter J. Love, Peter V. Coveney, Philosophical Transactions of the Royal Society A 360 (1792): 357-366 March 15 2002
  20. Three dimensional hydrodynamic lattice-gas simulations of binary immiscible and ternary amphiphilic flow through porous media, Peter J. Love, Jean-Bernard Maillet, Peter V. Coveney, Physical Review E 64 (6): art. no. 061302 Part 1 Dec 2001
  21. Three dimensional hydrodynamic lattice-gas simulations of domain growth and self assembly in binary immiscible and ternary amphiphilic fluids Peter J. Love, Peter V. Coveney and Bruce M. Boghosian, Physical Review E, 64, 1503 (2001)
  22. Mesoscale modeling of amphiphilic fluid dynamics, Bruce M. Boghosian, Peter V. Coveney, Peter J. Love, and Jean-Bernard Maillet, Molecular Simulation , 2001, 26, pp. 85-100
  23. Steering High Performance Parallel Programs: A Case Study. Peter J. Love and Jeremy M. R. Martin, WoTUG-23, Proceedings of the 23rd World occam and transputer user group, technical meeting. Concurrent Systems Engineering Series 58 , p99-109, 2000
  24. A three-dimensional lattice gas model for amphiphilic fluid dynamics Bruce M. Boghosian, Peter V. Coveney, Peter J. Love, Proceedings of the Royal Society, London Series A, 456 , pp 1431-1454 (2000).
  25. Study of the thermal/nonthermal electric field model in solar flares using spectral and spatial X-ray data from the Compton gamma ray observatory and Yohkoh Terry A. Kucera, P. J. Love, Brian R. Dennis, Gordon D. Holman, Richard A. Schwartz, Dominic M. Zarro, Astrophysical Journal , 1996, 466 , No.2 Pt1, pp.1067-1077

Peter Love  |   Haverford College    |    370 Lancaster Ave.    |    Haverford, PA    |    19041
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