Pengqian Wang’s Publication List

Refereed papers in scientific journals:

  1. Inverted zones in the axial regions on the group velocity surface of a biaxial crystal”.
    P. Q. Wang, Optics Letters 49, 7226-7229 (2024).
  2. Etendue index of light in uniaxial crystals”.
    P. Q. Wang, Optics Continuum 3, 1612-1621(2024).
  3. Group velocity of light in internal conical refraction”.
    P. Q. Wang, Applied Optics 62, 4310-4320(2023).
  4. “Polarization-dependent group velocity of light pulses traveling in the optic ray axis directions of a biaxial crystal”.
    P. Q. Wang, Optics Letters 47, 2338-2341(2022).
  5. “Group velocity of light in biaxial crystals”.
    P. Q. Wang, Applied Optics 60, 4143-4153(2021).
  6. “Asymmetry of the group velocity of light in monoclinic crystals”.
    P. Q. Wang, Optics Letters 46, 1425-1428(2021).
  7. “Group velocity of light in uniaxial crystals”.
    P. Q. Wang, Applied Optics 60, 1987-1994(2021).
  8. “Non-refracted extraordinary rays in a uniaxial crystal”.
    P. Q. Wang, Applied Optics 58, 883-891(2019).
  9. “Ray refraction in uniaxial crystals by Fermat’s principle”.
    P. Q. Wang, Applied Optics 57, 4950-4954(2018).
  10. “Geometrical ray tracing in uniaxial crystals: direct formulas and the equivalence between the electromagnetic wave method and Huygens’ principle”.
    P. Q. Wang, Journal of the Optical Society of America A 35, 1114-1123(2018).
  11. “A spinning polarizer and spinning analyzer method for visualizing the isochromates in conoscopic interferometers”.
    O. Olorunsola, O. Dada, and P. Q. Wang, International Journal of Modern Physics B 27, 1350175(2013).
  12. “Visualizing the conoscopic isochromatic interference fringes in anisotropic crystals by spinning polarizer and analyzer”.
    P. Q. Wang, Optics Letters 37, 4392-4394 (2012).
  13. “Electron impact dissociative ionization of nitrosyl chloride”.
    P. Q. Wang, Modern Physics Letters B 26, 1250065 (2012).
  14. “Elusive enhanced ionization structure for H2+ in intense ultrashort laser pulses”.
    I. Ben-Itzhak, P. Q. Wang, A. M. Sayer, K. D. Carnes, M. Leonard, B. D. Esry, A. S. Alnaser, B. Ulrich, X. M. Tong, I. V. Litvinyuk, C. M. Maharjan, P. Ranitovic, T. Osipov, S. l Ghimire, Z. Chang, and C. L. Cocke, Physical Review A 78, 063419 (2008).
  15. “Ionization and dissociation of molecular ion beams caused by ultrashort intense laser pulses”.
    I. Ben-Itzhak, A. M. Sayler, P. Q. Wang, J. McKenna, B. Gaire, N. G. Johnson, M. Leonard, E. Parke, K. D. Carnes, F. Anis, and B. D. Esry, Journal of Physics: Conference Series 88, 012046 (2007).
  16. “Determining intensity dependence of ultrashort laser processes through focus z-scanning intensity-difference spectra: application to laser-induced dissociation of H2+”.
    A. M. Sayler, P. Q. Wang, K. D. Carnes, and I. Ben-Itzhak, Journal of Physics B 40, 4367-4378 (2007).
  17. “Determining laser-induced dissociation pathways of multielectron diatomic molecules: Application to the dissociation of O2+ by high-intensity ultrashort pulses".
    A. M. Sayler, P. Q. Wang, K. D. Carnes, B. D. Esry, and I. Ben-Itzhak, Physical Review A 75, 063420 (2007).
  18. “Van der Waals bonding to a molecule with p-electron conjugation: styrene-argon complex studied by mass selective high resolution R2PI UV spectroscopy and ab-initio calculations".
    S. Chervenkov, P. Q. Wang, T. Chakraborty, H. J. Neusser, Zeitschrift für Physikalische Chemie 221, 619-631 (2007).
  19. “Determining the absolute efficiency of a delay line microchannel-plate detector using molecular dissociation".
    B. Gaire, A. M. Sayler, P. Q. Wang, Nora G. Johnson, M. Leonard, E. Parke, K. D. Carnes, and I. Ben-Itzhak, Review of Scientific Instruments 78, 024503 (2007).
  20. “Evidence for a C–H…p type weak interaction: 1:1 complex of styrene with acetylene studied by mass selective high-resolution UV spectroscopy and ab initio calculations”.
    S. Chervenkov, P. Q. Wang, J. E. Braun, T. Chakraborty, and H. J. Neusser, Physical Chemistry and Chemical Physics 9, 837-845 (2007).
  21. “Dissociation of H2+ in intense femtosecond laser fields studied by coincidence three-dimensional momentum imaging”.
    P. Q. Wang, A. M. Sayler, K. D. Carnes, J. F. Xia, M. A. Smith, B. D. Esry, and I. Ben-Itzhak, Physical Review A 74, 043411 (2006).
  22. “Multi-photon resonant effects in strong-field ionization: origin of the dip in experimental longitudinal momentum distributions”.
    A. S. Alnaser, C. M. Maharjan, P. Q. Wang, and I. V. Litvinyuk, Journal of Physics B 39, L323-L328 (2006).
  23. “Observation of two different types of optical supercontinua: Structured and structureless”.
    I. G. Koprinkov, A. Suda, M. Nurhuda, P. Q. Wang, and K. Midorikawa, Physical Review A 74, 053819 (2006).
  24. “Above threshold Coulomb explosion of molecules in intense laser pulses”.
    B. D. Esry, A. M. Sayler, P. Q. Wang, K. D. Carnes, and I. Ben-Itzhak, Physical Review Letters 97, 013003 (2006).
  25. “Generation of a completely dense femtosecond optical supercontinuum”.
    I. G. Koprinkov, A. Suda, P. Q. Wang, and K. Midorikawa, Journal of Physics B 39, L203-L209 (2006).
  26. “Highlighting the angular dependence of bond-softening and bond-hardening of H2+ in an ultrashort intense laser pulse”.
    P. Q. Wang, A. M. Sayler, K. D. Carnes, J. F. Xia, M. A. Smith, B. D. Esry, and I. Ben-Itzhak, Journal of Physics B 38, L251-L257 (2005).
  27. “Disentangling the volume effect through intensity-difference spectra: Application to laser-induced dissociation of H2+”.
    P. Q. Wang, A. M. Sayler, K. D. Carnes, B. D. Esry, and I. Ben-Itzhak, Optics Letters 30, 664-666 (2005).
  28. “Dissociation and ionization of H2+ by ultra-short intense laser pulses probed by coincidence 3D momentum imaging”.
    I. Ben-Itzhak, P. Q. Wang, J. Xia, A. M. Sayler, M. A. Smith, K. D. Carnes, and B. D. Esry, Physical Review Letters 95, 073002 (2005).
  29. “High resolution UV resonance enhanced two-photon ionization spectroscopy with mass selection of biologically relevant molecules in the gas phase”.
    S. Chervenkov, P. Q. Wang, R. Karaminkov, T. Chakraborty, J. E. Braun, and H. J. Neusser, Proceedings of SPIE-the International Society for Optical Engineering 5830, 246-250 (2005).
  30. “High-resolution ultraviolet spectroscopy of p-fluorostyrene-water: evidence for a s-type hydrogen-bonded dimer”.
    S. Chervenkov, P. Q. Wang, J. E. Braun, S. Georgiev, H. J. Neusser, C. K. Nandi and T. Chakraborty, Journal of Chemical Physics 122, 244312 (2005).
  31. “Dissociation and ionization of molecular ions by ultra-short intense laser pulses probed by coincidence 3D momentum imaging”.
    I. Ben-Itzhak, P. Q. Wang, J. Xia, A. M. Sayler, M. A. Smith, K. D. Carnes, and B. D. Esry, Nuclear Instruments and Methods in Physics Research B 233, 56-61 (2005).
  32. “Bond rearrangement caused by sudden single and multiple ionization of water molecules”.
    I. Ben-Itzhak, A. M. Sayler, M. Leonard, J. W. Maseberg, D. Hathiramani, E. Wells, M. A. Smith, J. F. Xia, P. Q. Wang, K. D. Carnes, and B. D. Esry, Nuclear Instruments and Methods in Physics Research B 233, 284-292 (2005).
  33. “Electron impact dissociative ionization of carbonyl chlorofluoride”.
    P. Q. Wang, and C. R. Vidal, International Journal of Mass Spectrometry 235, 207-212 (2004).
  34. “Fragmentation and conformation study of ephedrine by low- and high-resolution mass selective UV spectroscopy”.
    S. Chervenkov, P. Q. Wang, J. E. Braun, and H. J. Neusser, Journal of Chemical Physics 121, 7169-7175 (2004).
  35. “A single-shot transient-grating autocorrelator for the measurement of femtosecond laser pulses in the ultraviolet”.
    K. Takatoi, A. Suda, Y. Oishi, P. Q. Wang, K. Nagasaka, and K. Midorikawa, Japanese Journal of Applied Physics 43, 993-996 (2004).
  36. “Dissociation of multiply ionized isocyanic acid through electron impact”.
    P. Q. Wang, C. R. Vidal, J. Geith, T. M. Klapötke, and W. Fuss, Journal of Chemical Physics 120, 123-128 (2004).
  37. “Dissociation of multiply ionized carbonyl sulfide due to electron impact”.
    P. Q. Wang, and C. R. Vidal, Journal of Chemical Physics 118, 5383-5389 (2003).
  38. “Dissociation of multiply ionized alkanes from methane to n-butane due to electron impact”.
    P. Q. Wang, and C. R. Vidal, Chemical Physics 280, 309-329 (2002).
  39. “Single to triple ionization of propane due to electron impact: Cross sections for the different dissociation channels”.
    P. Q. Wang, and C. R. Vidal, Journal of Chemical Physics 116, 4023-4029 (2002).
  40. “Comment on 'self-compression of high-intensity femtosecond optical pulses and spatiotemporal soliton generation' -reply”.
    I. G. Koprinkov, A. Suda, P. Q. Wang, and K. Midorikawa, Physical Review Letters 87, 229402 (2001).
  41. “A spatial light modulator based on fused-silica plates for adaptive feedback control of intense femtosecond laser pulses”.
    A. Suda, Y. Oishi, K. Nagasaka, P. Q. Wang, and K. Midorikawa, Optics Express 9, 2-6 (2001).
  42. “Generation of light bullets”.
    I. G. Koprinkov, A. Suda, P. Q. Wang, and K. Midorikawa, Proceedings of the NATO Advanced Study Institute on Soliton-Driven Photonics, 355-358 (2001).
  43. “Self-Compression of high intensity femtosecond optical pulses and Spatio-temporal soliton generation”.
    I. G. Koprinkov, A. Suda, P. Q. Wang, and K. Midorikawa, Physical Review Letters 84, 3847-3850 (2000).
  44. “Generation of VUV/XUV coherent radiation in molecular gases”.
    X. Xie, P. Q. Wang, C. Cao, and T. Sun, Science in China A 43, 280-290 (2000).
  45. “High-energy conversion efficiency of transient stimulated Raman scattering in methane pumped by the fundamental of a femtosecond Ti:sapphire laser”.
    I. G. Koprinkov, A. Suda, P. Q. Wang, and K. Midorikawa, Optics Letters 24, 1308-1310 (1999).
  46. “Self-shortening of femtosecond laser pulses propagating in rare gas medium”.
    I. G. Koprinkov, A. Suda, P. Q. Wang, and K. Midorikawa, Japanese Journal of Applied Physics 38, L978-L980 (1999).
  47. “Two-photon resonant third harmonic generation of H2 in vacuum ultraviolet and extreme ultraviolet regions”.
    X. Xie, P. Q. Wang, C. Cao, and T. Sun, Chinese Physics Letters 16, 816-818 (1999).
  48. “Generation of tunable coherent VUV/XUV radiation in molecules”.
    T. Sun, P. Q. Wang, Proceedings of SPIE-the International Society for Optical Engineering 3749, 340 (1999).
  49. “Two- and three-photon resonant third harmonic generation in molecular nitrogen”.
    P. Q. Wang, C. Cao, X. Xie, and T. Sun, Chinese Physics Letters 15, 269-271 (1998).
  50. “Optical third harmonic generation in methane”.
    P. Q. Wang, X. Xie, and T. Sun, Chinese Physics Letters 14, 740-743 (1997).
  51. “Two-photon resonant third harmonic generation in carbon monoxide”.
    P. Q. Wang, C. Cao, and T. Sun, Chinese Physics Letters 14, 360-363 (1997).
  52. “Generation of broadly tunable coherent VUV/XUV radiations in Xe and Kr”.
    P. Q. Wang, C. Tian, J. Li, and T. Sun, Science in China A 39, 999-1008 (1996).
  53. “Generation of tunable coherent VUV radiation by four-wave sum-mixing in Ne”.
    C. Tian, P. Q. Wang, and T. Sun, Optics Communications 132, 248-250 (1996).
  54. “Windowless, geometry-independent, phase-matched method for the measurement of the oscillator strengths of Xe, Kr, and Ar”.
    C. Tian, J. Li, P. Q. Wang, and T. Sun, Physical Review A 50, 1133-1136 (1994).
  55. “A windowless, geometry-independent, phase-matched measurement of the oscillator strengths of inert gases”.
    C. Tian, J. Li, P. Q. Wang, and T. Sun, Optics Communications 110, 94-97 (1994).
  56. “The generation of tunable coherent XUV/VUV radiations in inert gases”.
    C. Tian, P. Q. Wang, and T. Sun, Science in China A 37, 718-729 (1994).
  57. “The generation of tunable coherent VUV radiation by nonresonant four-wave sum-mixing below the first resonance level of Kr and Ar”.
    C. Tian, P. Q. Wang, and T. Sun, Optics Communications 100, 204-206 (1993).