Publications by Daniel F. V. James

Articles

1. D. F. V. James and E. Wolf, “A Spectral Equivalence Theorem,” Optics Communications 72, 1-6 (1989).
2. D. F. V. James, “The Spectrum of Radiation from a Moving Source,” Physics Letters A 140, 213-217 (1989).
3. D. F. V. James, M. P. Savedoff and E. Wolf, “Shifts of Spectral Lines Caused by Scattering From Random Media,” Astrophysical Journal 359, 67-71 (1990); reprinted in E. Wolf, Selected Works of Emil Wolf (World Scientific, Singapore, 2001).
4. D. F. V. James, “The Effect of Spatial Coherence in Interferometric Measurements of Radii,” Astrophysical Journal 361, 650-652 (1990).
5. D. F. V. James and E. Wolf, “Doppler-like Frequency Shifts Generated by Dynamic Scattering,” Physics Letters A 146, 167-171 (1990).
6. D. F. V. James and E. Wolf, “Spectral Changes Produced in Young’s Interference Experiment,” Optics Communications 81,150-154 (1991); reprinted in E. Wolf, Selected Works of Emil Wolf (World Scientific, Singapore, 2001). 
7. D. F. V. James and E. Wolf, “Determination of Field Correlations From Spectral Measurements with Application to Synthetic Aperture Imaging,” Radio Science 26,1239-1243 (1991); reprinted in E. Wolf, Selected Works of Emil Wolf (World Scientific, Singapore, 2001).
8. D. F. V. James, “Comment on ‘Reflection-Induced Source Correlation in Spontaneous Emission,” Physical Review Letters 66, 675 (1991).
9. D. F. V. James and E. Wolf, “Some New Aspects of Young’s Interference Experiment,” Physics Letters A 157, 6-10 (1991); reprinted in E. Wolf, Selected Works of Emil Wolf (World Scientific, Singapore, 2001).
10. D. F. V. James, “Frequency Shifts in Spontaneous Emission From Two Interacting Atoms,” Physical Review A 47, 1336-1346 (1993).
11. D. F. V. James, “Change in Polarization of Light Beams on Propagation in Free Space,” Journal of the Optical Society of America A 11, 1641-1643 (1994).
12. G. S. Agarwal and D. F. V. James, “Spectral Changes in the Mach-Zehnder Interferometer,” Journal of Modern Optics 40, 1431-1436 (1993).
13. D. F. V. James and E. Wolf, “A Class of Scattering Media Which Generate Doppler-Like Frequency Shifts of Spectral Lines,” Physics Letters A 188, 239-244 (1994); reprinted in E. Wolf, Selected Works of Emil Wolf (World Scientific, Singapore, 2001).
14. D. F. V. James, “Polarization of Light Radiated by Black-Body Sources,” Optics Communications 109, 209-214 (1994).
15. D. F. V. James, H. C. Kandpal and E. Wolf, “A New Method for Determining the Angular Separation of Double Stars,” Astrophysical Journal 445, 406-410 (1995).
16. D. F. V. James and G. S. Agarwal, “A Generalized Radon Transform for Tomographic Measurement of Short Pulses,” Journal of the Optical Society of America B 12, 704-708 (1995).
17. P. W. Milonni, D. F. V. James and H. Fearn, “Photodetection and Causality in Quantum Optics,” Physical Review A 52, 1525-1537 (1995).
18. D. F. V. James, P. W. Milonni and H. Fearn, “Comment on ‘Superluminality, Parelectricity, and Earnshaw’s Theorem in Media with Inverted Populations`” Physical Review Letters 75, 3194 (1995).
19. D. F. V. James and G. S. Agarwal, “The Generalized Fresnel Transform and its Application to Optics,” Optics Communications 126, 207-212 (1996).
20. H. Fearn, D. F. V. James and P. W. Milonni, “A Microscopic Analysis of Reflection and the Extinction Theorem,” American Journal of Physics 64 986-995 (1996).
21. E. Wolf and D. F. V. James, “Correlation Induced Spectral Changes,” Reports in Progress in Physics 59, 771-818 (1996).
22. R. J. Hughes, D. F. V. James, E. H. Knill, R Laflamme and A. G. Petschek, “Decoherence Bounds on Quantum Computation with Trapped Ions,” Physical Review Letters 77, 3240-3243 (1996).
23. D. F. V. James and E. Wolf, “Cross-Spectrally Pure Light and the Spectral Modulation Law,” Optics Communications 138, 257-261 (1997).
24. D. F. V. James and E. Wolf, “Determination of the Degree of Coherence of Light from Spectral Measurements,” Optics Communications 145, 1-4 (1998); reprinted in E. Wolf, Selected Works of Emil Wolf (World Scientific, Singapore, 2001).
25. D. F. V. James. “Quantum Dynamics of Cold Trapped Ions, with Application to Quantum Computation,” Applied Physics B 66, 181-190 (1998); reprinted in C. Macchiavello, G. M. Palma and A. Zeilinger, eds. , Quantum Computation and Quantum Information Theory (World Scientific, Singapore, 2000).
26. R. J. Hughes, D. F. V. James, J. J. Gomez, M. S. Gulley, M. H. Holzscheiter, P. G. Kwiat, S. K. Lamoreaux, C. G. Peterson, V. D. Sandberg, M. M. Schauer, C. M. Simmons, C. E. Thorburn, D. Tupa, P. Z. Wang and A. G. White, “The Los Alamos Trapped Ion Quantum Computer Experiment,” Fortschritte der Physik 46, 329-361 (1998).
27. R. J. Hughes and D. F. V. James, “Prospects for Quantum Computation with Trapped Ions,” Fortschritte der Physik 46, 759-769 (1998).
28. T. P. Meyrath and D. F. V. James, “Theoretical and Numerical Studies of the Positions of Cold Trapped Ions,” Physics Letters A 240, 37-42 (1998).
29. D. F. V. James, M. S. Gulley, M. H. Holzscheiter, R. J. Hughes, P. G. Kwiat, S. K. Lamoreaux, C. G. Peterson, V. D. Sandberg, M. M. Schauer, C. M. Simmons, D. Tupa, P. Z. Wang and A. G. White, “Trapped Ion Quantum Computer Research at Los Alamos,” Quantum Computing and Quantum Communications, (C. P. Williams, ed., Lecture Notes in Computer Science 1509, Springer, Heidelberg, 1999) pp 426-437.
30. D. F. V. James, “The Wolf Effect and the Redshift of Quasars,” Pure and Applied Optics 7, 959-970 (1998).
31. D. F. V. James, “The Theory of Heating of the Quantum Ground State of Trapped Ions,” Physical Review Letters 81, 317-320 (1998).
32. G. Gbur, D. F. V. James and E. Wolf, “A New Energy Conservation Law for Randomly Fluctuating Electromagnetic Fields,” Physical Review E 59, 4594-4599 (1999); reprinted in E. Wolf, Selected Works of Emil Wolf (World Scientific, Singapore, 2001).
33. H. Fearn, D. F. V. James, P. W. Milonni and E. Wolf, “Comments on ‘The Ewald-Oseen Extinction Theorem’,” Optics and Photonics News 9 (11), 4-5 (November 1998); Reprinted in M. Mansuripur, Classical Optics and Its Applications (Cambridge University Press, Cambridge, 2001).
34. G. P. Berman, D. F. V. James, R. J. Hughes, M. S. Gulley, M. H. Holzscheiter and G. V. López, “Dynamical Stability and Quantum Chaos of Ions in a Linear Trap,” Physical Review A, 61, 023403 (2000).
35. S. Schneider, D. F. V. James and G. J. Milburn, “Quantum Computation with ‘Hot’ Trapped Ions,” Journal of Modern Optics 7, 499-505 (1999).
36. A. G. White, P. G. Kwiat, D. F. V. James and P. H. Eberhard, “Non-Maximally Entangled States: Production, Characterization and Utilization,” Physical Review Letters 83, 3103-3107 (1999).
37. G. Gbur and D. F. V. James, “Unpolarized Sources that Generate Highly Polarized Fields Outside the Source”, Journal of Modern Optics 47, 1171-1177 (2000).
38. G. P. Berman, D. F. V. James, D. I. Kamenev, “Stability of the Ground State of a Harmonic Oscillator Perturbed by a Monochromatic Wave,” CHAOS 11, 449-463 (2001).
39. G. P. Berman, D.F.V. James, D. I. Kamenev, “Quantum Chaos of an Ion Confined in a Linear Ion Trap Interacting with Laser Fields,” CHAOS 10, 371-382 (2000).
40. D. Enzer, M. M. Schauer, J. J. Gomez, M. S. Gulley, M. H. Holzscheiter, P. G. Kwiat, S. K. Lamoreaux, C. G. Peterson, V. D. Sandberg, D. Tupa, A. G. White, R. J. Hughes and D. F. V. James, “Observation of Power-Law Scaling for Phase Transitions in Linear Trapped Ion Crystals,” Physical Review Letters 85, 2466-2469 (2000).
41. D. F. V. James, “Quantum Computation with Hot and Cold Ions: An Assessment of Proposed Schemes,” Fortschritte der Physik 48, 823-837 (2000); reprinted in S. L. Braunstein, and H.-K. Lo, eds., Scalable Quantum Computers: Paving the Way to Realization (Wiley-VCH, Berlin, 2001).
42. G.J. Milburn, S. Schneider and D. F. V. James, “Ion Trap Quantum Computing with Warm Ions,” Fortschritte der Physik 48, 801-810 (2000); reprinted in S. L. Braunstein, and H. -K. Lo, eds., Scalable Quantum Computers: Paving the Way to Realization (Wiley-VCH, Berlin, 2001).
43. A. G. White, D. F. V. James, W. J. Munro and P. G. Kwiat, “Exploring Hilbert Space: Accurate Characterization of Quantum Information,” Physical Review A 65, 012301 (2002).
44. W. J. Munro, D. F. V. James, A. G. White and P. G. Kwiat, “Maximizing the Entanglement of Two Mixed Qubits,” Physical Review A 64, 030302 (2001).
45. G. P. Berman, A. R. Bishop, D. F. V. James, R. J. Hughes and D. I. Kamenev “Dynamical Stability of an Ion in a Linear Trap as a Solid State Problem of Electron Localization,” Physical Review A 64, 053406 (2001).
46. D. F. V. James, P. G. Kwiat, W. J. Munro and A. G. White, “Measurement of Qubits,” Physical Review A 64, 052312 (2001).  Reprinted in Masahito Hayashi Asymptotic Theory of Quantum Statistical Inference (World Scientific, Singapore, 2005).
47. J. Grondalski, D. M. Etlinger and D. F. V. James, “The Fully Entangled Fraction as an Inclusive Measure of Entanglement Applications,” Physics Letters A 300, 569-576 (2002).
48. D. F. V. James and P. G. Kwiat, “Atomic Vapor-Based High Efficiency Optical Detectors with Photon Number Resolution,” Physical Review Letters 89, 183601 (2002).
49. C. Marquet, F. Schmidt-Kaler and D. F. V. James, “Phonon-Phonon Interactions Due to Non-Linear Effects in a Linear Ion Trap,” Applied Physics B 76 199-208 (2003).
50. J. Grondalski and D. F. V. James, “Is there a fundamental limitation on the measurement of spatial coherence for highly incoherent fields?” Optics Letters 28 1630-1632 (2003).
51. G. J. Pryde, J. L. O’Brien, A. Gilchrist, D. F. V. James, N. K. Langford, T. C. Ralph, and A. G. White, “Quantum process tomography of a controlled-NOT gate,” Physical Review Letters 93, 080502 (2004).
52. M. Riebe, H. Häffner, C. F. Roos, W. Hänsel, J. Benhelm, G. P. T. Lancaster, T. W. Körber, C. Becher, F. Schmidt-Kaler, D. F. V. James and R. Blatt, “Deterministic Quantum Teleportation with Atoms,” Nature 429, 734 (2004).
53. T.-C. Wei, J. B. Altepeter, D. Branning, P. M. Goldbart, D. F. V. James, E. Jeffrey, P. G. Kwiat, S. Mukhopadhyay and N. A. Peters, “Synthesizing arbitrary two-photon polarization mixed states,” Phys. Rev. A 71, 032329 (2005).
54. S. Barraza-Lopez, D. F. V. James and P. G. Kwiat, “High-visibility interferometric measurement of the phase in Fresnel diffraction at a straight edge,” J. Opt. Soc. Amer. A 24, 1148-1155 (2007).
55. D. F. V. James and J. Jerke, “Effective Hamiltonian Theory and Its Applications in Quantum Information,” Canadian Journal of Physics 85, 625-632 (2007).
56. A. Al-Qasimi, O. Korotkova, D. F. V. James and E. Wolf, “Definitions of the degree of polarization of a light beam,” Optics Letters 32, 1015-1016 (2007).
57. S. N. Volkov, D. F. V. James, T. Shirai and E. Wolf, “Correlations between intensity fluctuations in electromagnetic beams and the degree of cross-polarization,” Journal of Optics A: Pure and Applied Optics,10 055001 (2008).
58. B. P. Lanyon, T. J. Weinhold, N. K. Langford, M. Barbieri, D. F. V. James, A. Gilchrist, and A. G. White, “Experimental demonstration of Shor's algorithm with quantum entanglement,” Physical Review Letters 99, 250505 (2007).
59. C. F. Roos, T. Monz, K. Kim, M. Riebe, H. Häffner, D. F. V. James, and R. Blatt, “Nonlinear effects in continuous variables at the single quantum level,” Physical Review A 77, 040302 (2008); arXiv:0705.0788.
60. A. Al-Qasimi and D. F. V. James, “Sudden death of entanglement at finite temperature” Physical Review A 77, 012117 (2008); arXiv:0707.2611.
61. R. Stock, D. F. V. James, “A scalable, high-speed measurement-based quantum computer using trapped ions,” Physical Review Letters 102, 170501 (1 May 2009); arXiv:0808.1591.
62. M. Kaznady and D. F. V. James, “Numerical strategies for quantum tomography: Alternatives to full optimization,” Physical Review A 79, 022109 (9 February 2009) (11 pages); arXiv:0809.2376.
63. A. Al-Qasimi and D. F. V. James, “Nonexistence of Entanglement Sudden Death in High NOON States,” Optics Letters 34, 268-270 (1 February 2009); arXiv:0810.0550.
64. X. Rebecca Nie, Christian F. Roos, and Daniel F. V. James, “Theory of Cross Phase Modulation for the Vibrational Modes of Trapped Ions,” Physics Letters A 373, 422-425 (28 November 2008).
65. H. Hossein-Nejad, R. Stock and D. F. V. James, “Generation of multi-photon entanglement by propagation and detection,” Physical Review A 80, 022308 (9 August 2009).
66. A. Al-Qasimi, M. Lahiri, D Kuebel, D. F. V. James and E. Wolf, “The influence of the degree of cross-polarization on the Hanbury Brown-Twiss effect,” Optics Express 18, 17124 (2 August 2010).
67. O. Gamel and D. F. V. James, “Time Averaged Quantum Dynamics and the Validity of the Effective Hamiltonian Model”, Physical Review A 82, 052106 (2010).
68. A. Al-Qasimi and D. F. V. James, “A Comparison of the Attempts of Quantum Discord and Quantum Entanglement to Capture Quantum Correlations”, Physical Review A 83, 032101 (2 March 2011).
69. H-K Lau and D. F. V. James, “Decoherence and dephasing errors caused by the DC Stark effect in rapid ion transport” Physical Review A 83, 062330 (24 June 2011).
70. O. Gamel and D. F. V. James, “Causality and the Complete Positivity of Classical Polarization Operations,” Optics Letters 36, 2821 (2011).

Books and/or Chapters

1. P. G. Kwiat and D. F. V. James, “Quantum Optics: Entanglement and Quantum Information,” Encyclopedia of Modern Optics p. 964 (Bob D. Guenther, ed., Academic Press, 2004).
2. J. B. Altepeter, D. F. V. James and P. G. Kwiat, “Quantum State Tomography” Quantum Estimation of States and Operations, Lect. Notes Phys. 649, 113–145 (Matteo Paris, Jarda Rehacek, eds; Springer, 2004).

Non-Refereed Publications

Scholarly Articles

1. D. F. V. James, “The Spectrum of Radiation From a Moving Source of Any State of Coherence,” Proceedings of 6th Rochester Conference on Coherence and Quantum Optics (J. H. Eberly, L. Mandel and E. Wolf, eds., Plenum Press, N. Y. 1990), 553-557.
2. D. F. V. James, “The Effect of Spatial Coherence of Sources on Synthetic Aperture Mapping,” Proceedings of I. A. U. symposium 131 (T. J. Cornwell and R. A. Perley eds., Astronomical Society of the Pacific, 1991) 10-14.
3. N. A. Kurnit, T. Shimada, M. S. Sorem, A. J. Taylor, G. Rodriguez, T. S. Clement, H. Fearn, D. F. V. James and P. W. Milonni, “Measurement and Control of Optical Nonlinearities of Importance to Glass Laser Fusion Systems,” Solid-State Lasers for application to Inertial Confinement Fusion, Proceedings of the SPIE 3047, 387-395 (1997).
4. D. F. V. James, R. J. Hughes, E. H. Knill, R. Laflamme and A. G. Petschek, “Decoherence Bounds on the Capabilities of Cold Trapped Ion Quantum Computers” in Photonic Quantum Computing (S. P. Hotaling and A. P. Pirich, eds.) Proceedings of the SPIE 3076, 42-50 (1997).
5. D. F. V. James, S. Schneider and G. J. Milburn, “Quantum Computation with “Hot” Trapped Ions,” Quantum Communication, Computing, and Measurement 2 (Prem Kumar, G. Mauro D’Ariano and Osamu Hirota, eds. , Kluwer Academic/Plenum Publishers, 2000), p.289.
6. M. S. Gulley, J. J. Gomez, M. H. Holzscheiter, D. F. V. James, P. G. Kwiat, S. K. Lamoreaux, C. G. Peterson, V. Sandberg, M. M. Schauer, C. Simmons, D. Tupa, P. Wang, A. G. White, R. J. Hughes, “Progress Towards Using a Calcium Ion Trap to Perform Quantum Logic Operations,” Quantum Communication, Computing, and Measurement 2 (Prem Kumar, G. Mauro D’Ariano and Osamu Hirota, eds. , Kluwer Academic/Plenum Publishers, 2000), p.283.
7. A. G. White, P. G. Kwiat, and D. F. V. James, “‘Interaction-Free’ Measurements of Quantum Objects?” Proceedings of Workshop on Mysteries, Puzzles, and Paradoxes in Quantum Mechanics (R. Bonifacio, ed., American Institute of Physics, New York, 1999).
8. D. F. V. James, “Quantum Computation with Trapped Ions and the ‘Heating Problem’,” Quantum Computing III (E. Donkor and A. R. Pirich, eds.) Proceedings of the SPIE 4047.
9. D. Enzer, M. H. Holzscheiter, D. F. V. James, P. G. Kwiat, S. K. Lamoreaux, V. D. Sandberg, M. M. Schauer, J. R. Torgerson, D. Tupa and R. J. Hughes, “Progress towards sideband-cooling trapped calcium ions” Proceedings of the 1st International Conference on Experimental Implementations of Quantum Computation (R. G. Clark, ed., Rinton Press, 2001), p.99.
10. W. J. Munro, D. F. V. James, A. G. White and P. G. Kwiat, “Tomography and its Role in Quantum Computation,” Proceedings of the 1st International Conference on Experimental Implementations of Quantum Computation (R. G. Clark, ed., Rinton Press, 2001), p.230.
11. H. Häffner, M. Riebe, F. Schmidt-Kaler, W. Hänsel, C.F.  Roos, J. Benhelm, T.W. Körber, G.P.T. Lancaster, C. Becher, D.F.V. James and R. Blatt, “Teleportation with atoms,” Atomic Physics 19 (L. Marcassa, K. Helmerson and V. Bagnato, eds., AIP 770, New York, 2005), pp. 341-349.
12. H. Häffner, M. Riebe, F. Schmidt-Kaler, W. Hänsel, C.F. Roos, M. Chwalla, J. Benhelm, T. W. Körber, G.P.T. Lancaster, C. Becher, D.F.V. James and R. Blatt, “Controlling Three Atomic Qubits,” in Physical Realizations of Quantum Computing, (M. Nakahara, S. Kanemitsu, M.M. Salomaa, S Takagi, eds., World Scientific, Singapore, 2006)  pp. 108-126.

Other Articles

1) A. T. Friberg and D. F. V. James, "Physical Optics and Coherence Theory," Pure and Applied Optics 7 (5), (1998) [editorial].
2) D. F. V. James, "Quantum Computation and Quantum Information," Physics Today 54 (11), 60 (November 2001) [book review].
3) D. F. V. James and P. G. Kwiat, "Quantum State Entanglement: Creation, Characterization and Application," Los Alamos Science (2002) [popular article].
4) D. F. V. James, "A Tribute to Emil Wolf: Science and Engineering Legacy of Physical Optics," Optics and Photonics News 16 (11), p.45 (Nov 2005) [book review].
5) D. F. V. James, "Quantum Memory," Idea&s: the Arts & Science Review, Spring 2007 [popular article].
6) D. F. V. James, "Optically Polarized Atoms," Physics Today 64 (3), 55 (March 2011) [book review].

Radio Broadcasts

• CBC Radio 1 Quirks and Quarks special: Nine-and-a-Half Technologies that could change the world (segment), broadcast 28 March 2009.