{"id":19,"date":"2012-09-05T11:22:25","date_gmt":"2012-09-05T15:22:25","guid":{"rendered":"https:\/\/people.clas.ufl.edu\/template\/?page_id=19"},"modified":"2026-03-13T10:00:46","modified_gmt":"2026-03-13T14:00:46","slug":"publications","status":"publish","type":"page","link":"https:\/\/people.clas.ufl.edu\/stanton\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\n
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Publications<\/h1>\n\n\n\n
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  1. \u201cProbing and modeling of photoexcited carrier dynamics in Ge-based heterostructures\u201d, Brenden A. Magill, Rathsara R. H. H. Mudiyanselage, Thalya Paleologu, Christopher E. McKinney, Yannick Pleimling , Nicholas W. G. Smith, Mantu Hudait, Christopher J. Stanton, and Giti A. Khodaparast, Rev. B. 112, 075308 (2025).<\/li>\n
  2. \u201cBand structure, g-factor, and spin relaxation in n-type InAsP alloys\u201d, Sunil K. Thapa, Rathsara R. H. H. Mudiyanselage, Thalya Paleologu, Sukgeun Choi, Zhuo Yang, Y. Kohama, Y. H. Matsuda, Joseph Spencer, Brenden A. Magill, Chris J. Palmstrom, Christopher J. Stanton, Giti A. Khodaparast, Phys. Rev. B 108, 115202 (2023), DOI: https:\/\/doi.org\/10.1103\/PhysRevB.108.115202<\/li>\n
  3. \u201cTerahertz Radiation from Propagating Acoustic Phonons based on Deformation Potential Coupling\u201d, Sang-Hyuk Park, Sehyuk Lee, Kunie Ishioka, Christopher J. Stanton, Chul-Sik Kee, Andreas Beyer, UlrichH\u00f6fer, Wolfgang Stolz, Kerstin Volz, and Young-Dahl Jho, Optics Express 30 23544 (2022).<\/li>\n
  4. \u201cSeparation of interface and substrate carrier dynamics at a heterointerface based on coherent phonons\u201d, Ishioka, Kunie, Ethan Angerhofer, Christopher J. Stanton, Gerson Mette, Kerstin Volz, Wolfgang Stolz, and Ulrich H\u00f6fer, Physical Review B 105, 035309 (2022).  https:\/\/doi.org\/10.1103\/PhysRevB.105.035309<\/li>\n
  5. \u201cProbe of the excitonic transitions and lifetimes in quasi-2D organic\u2013inorganic halide perovskites\u201d Brenden A. Magill, Kai Wang, Stephen McGill, Christopher J. Stanton, Shashank Priya, and Giti A. Khodaparast, AIP Advances 12, 015114 (2022). https:\/\/doi.org\/10.1063\/5.0072566<\/li>\n
  6. \u201cShear-strain-mediated photoluminescence manipulation in two-dimensional transition metal dichalcogenides\u201d, Hwang, Hyeong-Yong, Sehyuk Lee, Yong-Hoon Kim, Farman Ullah, Chinh Tam Le, Yong Soo Kim, Ki-Ju Yee, Christopher J. Stanton, and Young-Dahl Jho 2D Materials 9, 015011 (2021). https:\/\/doi.org\/10.1088\/2053-1583\/ac351d<\/li>\n
  7. \u201cOptical Properties of Pb0.52Zr0.48TiO3 Nanorod Arrays: Second Harmonic Generation and Multiphoton Carrier Dynamics\u201d, Rathsara R. H. H. Mudiyanselage, John Burton, Brenden A. Magill, Kiara McMillan, Gabi Gagliano, Ada J. Morral, Min Gyu Kang, Han-Byul Kang, Shashank Priya, Christopher J. Stanton, Giti A. Khodaparast, Journal of Physics: Photonics, 3 034012 (2021).<\/li>\n
  8. \u201cStructural, Morphological and Magnetotransport Properties of Composite Semiconducting and Semimetallic InAs\/GaSb Superlattice Structure\u201d, M. K. Hudait, M. Clavel, P. S. Goley, Y. Xie, J. J. Heremans, Y. Jiang, Z. Jiang, D. Smirnov, G. D. Sanders, and C. J. Stanton, Materials Advances, 1 1099-1112, (2020), DOI:10.1039\/d0ma00046a<\/li>\n
  9. \u201cExperimental measurements of effective mass in near-surface InAs quantum wells\u201d, Joseph Yuan, Mehdi Hatfipour, Brenden A. Magill, William Mayer, Matthieu C. Dartiailh, Kasra Sardashti, Kaushini S. Wickramasinghe, Giti A. Khodaparast, Yasuhiro H. Matsuda, Yoshimitsu Kohama, Zhuo Yang, Sunil Thapa, Christopher J. Stanton, and Javad Shabani, Physical Review B.  101,  205310 (2020). https:\/\/doi.org\/10.1103\/PHYSREVB.101.205310.<\/li>\n
  10. \u201cMagnetic Field Enhanced Detection of Coherent Phonons in a GaMnAs\/GaAs Film\u201d, B. A. Magill, S. Thapa, C. J. Stanton, J. Holleman, S. McGill, H. Munekata, and G. A. Khodaparast, Physical Review B. 102, 045306 (2020). https:\/\/doi.org\/10.1103\/PHYSREVB.102.045306<\/li>\n
  11. \u201cCoherent acoustic phonons and ultrafast carrier dynamics in heteroepitaxial BaTiO3\u2013BiFeO3 films and nanorods\u201d, R. H. Mudiyanselage, Brenden A. Magill, John Burton, Moira Miller,  Joseph Spencer, Kiara McMillan, Giti A. Khodaparast, Han Byul Kang,  Min Gyu Kang,  Deepam Maurya,  Shashank Priya, Jade Holleman, Steve McGill and Christohper J. Stanton.  Mat. Chem. C.  7, 14212 (2019).<\/li>\n
  12. \u201cValley and Zeeman Splittings in Multilayer Epitaxial Graphene Revealed by Circular Polarization Resolved Magnetoinfrared Spectroscopy.\u201d Jiang, Yuxuan, Zhengguang Lu, Jamey Gigliotti, Avinash Rustagi, Li Chen, Claire Berger, Walt de Heer, Christopher J. Stanton, Dmitry Smirnov, and Zhigang Jiang, Nano letters 19, no. 10 (2019): 70437049.<\/li>\n
  13. \u201cEnergy-dependent amplitude of Brillouin oscillations in GaP\u201d, Baydin, R. Gatamow, H. Krzyzanowska , C. J. Stanton, and N. Tolk, Phys. Rev. B, 99, 165202, (2019).<\/li>\n
  14. \u201cCoherent optical and acoustic phonons generated at lattice-matched GaP\/Si(0 0 1) heterointerfaces\u201d, Kunie Ishioka, Andreas Beyer, Wolfgang Stolz, Kerstin Volz, Hrvoje Petek, Ulrich H\u00f6fer and Christopher J Stanton, J. Phys.: Condens. Matter 31, 094003, (2019).<\/li>\n
  15. \u201cAnomalously large resistance at the charge neutrality point in a zero-gap InAs\/GaSb bilayer\u201d, W. Yu, V. Cleric\u00f2, C. Hern\u00e1ndez Fuentevilla, X. Shi, Y. Jiang, D. Saha, W. K. Lou, K. Chang, D. H. Huang, G. Gumbs, D. Smirnov, C. J. Stanton, Jiang, V. Bellani, Y. Meziani, E. Diez, W. Pan, S. D. Hawkins and J. F. Klem, New J. Phys. 20, 053062 (2018).<\/li>\n
  16. \u201cProbing the magnetic field dependence of the light hole transition in GaAs\/AlGaAs quantum wells using optically pumped NMR\u201d, Matthew M. Willmering, Erika L. Sesti, Sophia E. Hayes, Ryan M. Wood, Clifford R. Bowers, Sunil K. Thapa, Christopher J. Stanton, Arneil P. Reyes, Philip Kuhns, and Stephen McGill, Phys. Rev. B 97, 075303 \u2013 (2018).<\/li>\n
  17. \u201cSub-picosecond acoustic pulses at buried GaP\/Si interfaces\u201d, Kunie Ishioka, Avinash Rustagi, Andreas Beyer, Wolfgang Stolz,  Kerstin Volz, Ulrich H\u20acofer,  Hrvoje Petek, and Christopher J. Stanton,  Phys. Lett. 111, 062105 (2017)<\/li>\n
  18. Young-Dahl Jho, Hoonil Jeong, Christopher J. Stanton, Dong-Sean Lee, Minyeo Kim, “Electrical modulation and switching of acoustic phonon.”, Proc. SPIE 10112, Photonic and Phononic Properties of Engineered Nanostructures VII, 101121V (28 April 2017); https:\/\/doi.org\/10.1117\/12.2251320<\/li>\n
  19. \u201cDetecting the Photoexcited Carrier Distribution Across GaAs\/Transition Metal Oxide Interfaces by Coherent Longitudinal Acoustic Phonons.\u201d, Pollock, Kevin L., Hoang Q. Doan, Avinash Rustagi, Christopher J. Stanton, and Tanja Cuk. Journal of Physical Chemistry Letters 8, 922-928 (2017).<\/li>\n
  20. \u201cIntrinsic coherent acoustic phonons in the indirect band gap semiconductors Si and GaP\u201d, Kunie Ishioka,  Avinash Rustagi, Ulrich H\u00f6fer,  Hrvoje Petek, and Christopher J. Stanton  Rev. B 95 035205 (2017).<\/li>\n
  21. \u201cProbing the semiconductor to semimetal transition in InAs\/GaSb double quantum wells by magneto-infrared spectroscopy Y. Jiang, S. Thapa, G. D. Sanders, C. J. Stanton, Q. Zhang, J. Kono, W. K. Lou, K. Chang, S. D.  Hawkins, J. F. Klem, and W. Pan, D. Smirnov, Z. Jiang, Physical Review B 95, 045116 (2017).<\/li>\n
  22. \u201cInterband and Intraband Relaxation Dynamics in InSb Based Quantum Wells\u201d, M. Bhowmick, G. A. Khodaparast, T. D. Mishima and M. B. Santos, D. Saha, G. Sanders, and, C. J. Stanton, Journal of Applied Physics 120 235702 (2016).<\/li>\n
  23. \u201cModelling of OPNMR Phenomena Using Photon Energy-Dependent <Sz> in GaAs and InP\u201d, Dustin D. Wheeler, Matthew M. Willmering, Erika L. Sesti, Xingyuan Pan, Dipta Saha, Christopher J. Stanton,  and Sophia E. Hayes, Journal of Magnetic Resonance, 273  12 (2016).<\/li>\n
  24. \u201cTHz radiation from accelerating charge carriers in graphene under ultrafast photoexcitation\u201d, A. Rustagi, and C. J. Stanton, Phys. Rev. B 94 195207 (2016).<\/li>\n
  25. \u201cUltrafast Anisotropic Optical Response and Coherent Acoustic Phonon Generation in Polycrystalline BaTiO3-BiFeO3\u201d , Magill, Brenden A., Kyoung-Duck Park, Yuan Zhou, Anuj Chopra, Deepam Maurya, Shashank Priya, Markus Raschke, Alexey Belyanin, Christopher J. Stanton, and Giti A. Khodaparast, Energy Harvesting and Systems, 3 229-236,  (2016).<\/li>\n
  26. \u201cCharacterization of Elastic Interactions in GaAs\/Si Composites by Optically Pumped Nuclear Magnetic Resonance\u201d, Ryan M. Wood,1 John T. Tokarski III, Lauren A. McCarthy, Christopher J. Stanton,  and Clifford R. Bowers, Journal of Applied Physics, 120 085104 (2016).<\/li>\n
  27. \u201cElectrical modulation and switching of transverse acoustic phonons\u201d, H. Jeong, Y. D. Jho, S. H. Rhim, K. J. Yee, S. Y. Yoon, J. P. Shim, D. S. Lee, J. W. Ju, J. H. Baek, and C. J. Stanton, Phys. Rev. B, 94 024307 (2016).<\/li>\n
  28. \u201cTuning g factors of core-shell nanoparticles by controlled positioning of magnetic impurities.\u201d, Sanders, G. D., J. L. Musfeldt, and C. J. Stanton. Physical Review B 93, 075431 (2016).<\/li>\n
  29. \u201cCoherent phonon spectroscopy characterization of electronic bands at buried semiconductor heterointerfaces\u201d, Ishioka, Kunie, Kristina Brixius, Andreas Beyer, Avinash Rustagi, Christopher J. Stanton, Wolfgang Stolz, Kerstin Volz, Ulrich H\u00f6fer, and Hrvoje Petek , Applied Physics Letters 108, 051607 (2016).<\/li>\n
  30. \u201cDynamically Coupled Plasmon-Phonon Modes in GaP; an Indirect-Gap, Polar Semiconductor \u201c, K, Ishioka, K. Brixius K. , U. Hofer,  Rustagi, E. M. Thatcher, C. J. Stanton, C. J. and H. Petek,  Phys. Rev. B,  92 205203 (2015).<\/li>\n
  31. \u201cHigh-field magnetic circular dichroism in ferromagnetic InMnSb and InMnAs: Spin-orbit-split hole bands and g factors\u201d, Meeker, M. A., Magill, B. A., Khodaparast, G. A., Saha, D., Stanton, C. J., McGill, S., and  Wessels, B. W, Physical. Review. B, 92 125203 (2015).<\/li>\n
  32. \u201cInterband magneto-spectroscopy in InSb square and parabolic quantum wells\u201d, T. Kasturiarachchi, D. Saha, X. Pan, G. D. Sanders, M. Edirisooriya, T. D. Mishima, R. E. Doezema, C. J. Stanton, and M. B. Santos, Journal of Applied Physics 117, 213914 (2015).<\/li>\n
  33. \u201cProbe of the Band Structure of MBE Grown p-type InMnAs at Ultrahigh Magnetic Fields\u201d, Y. Sun, F. V. Kyrychenko, G. D. Sanders, C. J. Stanton, G. A. Khodaparast, J. Kono, Y. H. Matsuda, H. Munekata, SPIN. Vol. 5. No. 01. World Scientific Publishing Company, 2015.<\/li>\n
  34. “Electrical Manipulation of Crystal Symmetry for Switching Transverse Acoustic Phonons.”, Jeong, H., Y. D. Jho, and C. J. Stanton, Physical Review Letters 114, 043603  (2015).<\/li>\n
  35. \u201cUltrafast coupling of coherent phonons with a nonequilibrium electron-hole plasma in GaAs\u201d, Basak, Amlan Kumar, Hrvoje Petek, Kunie Ishioka, Evan M. Thatcher, and Christopher J. Stanton, Physical Review B 91, 125201 (2015)<\/li>\n
  36. \u201cOrigin of coherent G-band phonon spectra in single-wall carbon nanotubes.\u201d, Nugraha, A. R. T., E. H. Hasdeo, G. D. Sanders, C. J. Stanton, and R. Saito. Physical Review B 91, 045406 (2015.<\/li>\n
  37. \u201cHot-electron noise properties of graphene-like systems\u201d, Rustagi, A., and C. J. Stanton. Physical Review B 90, 245424 (2014).<\/li>\n
  38. \u201cTime Resolved Spectroscopy in Narrow Gap MOVPE Grown Ferromagnetic Semiconductors.\u201d, Khodaparast, G. A., M. Bhowmick, C. Feeser, B. W. Wessels, D. Saha, G. D. Sanders, and C. J. Stanton. In Ultrafast Magnetism I, pp. 8-10. Springer International Publishing, 2015.<\/li>\n
  39. \u201cEffects of strain and quantum confinement in optically pumped nuclear magnetic resonance in GaAs: Interpretation guided by spin-dependent band structure calculations\u201d, M. Wood, D. Saha, L. A. McCarthy,  J. T. Tokarski III,  G. D. Sanders,  P. L. Kuhns,  S. A. McGill,  A. P. Reyes, J. L. Reno, C. J. Stanton, and C. R. Bowers, Phys. Rev. B  90, 155317 (2014).<\/li>\n
  40. \u201cModeling optically pumped NMR and spin polarization in GaAs\/AlGaAs quantum wells.\u201d, Saha, D., R. Wood, J. T. Tokarski, L. A. McCarthy, C. R. Bowers, E. L. Sesti, S. E. Hayes et al. In SPIE NanoScience+ Engineering, pp. 91670N-91670N. International Society for Optics and Photonics, 2014.<\/li>\n
  41. \u201cExperimental measurements of optically-pumped NMR (OPNMR) and spin polarization in bulk GaAs and GaAs\/AlGaAs quantum wells.\u201d, Wheeler, Dustin D., Erika L. Sesti, Dipta Saha, Gary D. Sanders, Christopher J. Stanton, and Sophia E. Hayes. In SPIE NanoScience+ Engineering, pp. 91670O-91670O. International Society for Optics and Photonics, 2014.<\/li>\n
  42. \u201cCoherent phonons in carbon based nanostructures.\u201d, Sanders, G. D., A. R. T. Nugraha, K. Sato, J-H. Kim, Y-S. Lim, J. Kono, R. Saito, and C. J. Stanton. In SPIE Defense+ Security, pp. 908309-908309. International Society for Optics and Photonics, 2014.<\/li>\n
  43. \u201cAssignments of transitions in optically-pumped NMR of GaAs\/AlGaAs quantum wells on a bulk GaAs substrate.\u201d, Sesti, E. L., D. D. Wheeler, S. E. Hayes, D. Saha, G. D. Sanders, and C. J. Stanton,  Physical Review B 90.12 (2014): 125301.<\/li>\n
  44. \u201cUltrafast Generation of Fundamental and Multiple-order Phonon Excitations in Highly-Enriched (6, 5) Single-Wall Carbon Nanotubes.\u201d, Lim, Y-S., A. R. T. Nugraha, S-J. Cho, M-Y. Noh, E-J. Yoon, H. Liu, J-H. Kim et al, Nano Lett. 14, 1426\u22121432 (2014).<\/li>\n
  45. \u201cNexus between coherent longitudinal-optical phonons and electronic diffusions in low-gap semiconductors.\u201d, Min, Kyung-Gu, Ki-Ju Yee, C. J. Stanton, Jin-Dong Song, and Young-Dahl Jho. In The Physics of Semiconductors: Proceedings of the 31st International Conference on the Physics of Semiconductors (ICPS) 2012, vol. 1566, no. 1, pp. 105-106. AIP Publishing, 2013.<\/li>\n
  46. \u201cMode switching of acoustic phonons by external bias.\u201d, Jeong, Hoonil, Ki-Ju Yee, Christopher J. Stanton, and Young-Dahl Jho. In The Physics of Semiconductors: Proceedings of the 31st International Conference on the Physics of Semiconductors (ICPS) 2012, vol. 1566, no. 1, pp. 466-467. AIP Publishing, 2013.<\/li>\n
  47. \u201cCyclotron resonance in ferromagnetic InMnAs and InMnSb.\u201d, Khodaparast, G. A., Y. H. Matsuda, D. Saha, G. D. Sanders, C. J. Stanton, H. Saito, S. Takeyama et al. Physical Review B 88, no. 23 (2013): 235204. (This article was an editor\u2019s choice article).<\/li>\n
  48. \u201cElectron and Phonon Coupling Dynamics in Low-Gap Semiconductor: Quantum versus Classical Scale.\u201d, Min, Kyung-Gu, Ki-Ju Yee, Christopher J. Stanton, Jin-Dong Song, and Young-Dahl Jho. Journal of Nanoscience and Nanotechnology 14, no. 7 (2014): 5177-5180.<\/li>\n
  49. \u201cExcitonic effects on coherent phonon dynamics in single-wall carbon nanotubes.\u201d, Nugraha, Ahmad RT, E. I. Rosenthal, Eddwi H. Hasdeo, Gary D. Sanders, Christopher J. Stanton, Mildred S. Dresselhaus, and Riichiro Saito. Physical Review B 88,. 7 (2013): 075440.<\/li>\n
  50. \u201cTheory of coherent phonons in carbon nanotubes and graphene nanoribbons\u201d, G D Sanders, A R T Nugraha, K Sato, J-H Kim, J Kono, R Saito and C J Stanton, Journal of Physics: Condensed Matter 25  (2013). (Invited Review Article).<\/li>\n
  51. \u201cCoherent Phonon Dynamics in Short-Period InAs\/GaSb Superlattices\u201d, T. Noe, H. J. Haugan,  G. J. Brown,  G. D. Sanders, C. J. Stanton,  and J. Kono, Superlattices and Microstructures. 52   Issue: 6   Pages: 1071-1077   (2013).<\/li>\n
  52. \u201cEffect of a magnetic field on the quasiparticle recombination in superconductors\u201d, Xiaoxiang Xi, J. Hwang, Martin,  D. H. Reitze, C. J. Stanton, D. B. Tanner,  and G. L. Carr,  Phys. Rev.  B 87, 140502(R) (2013).<\/li>\n
  53. \u201cCoherent phonons in carbon nanotubes and graphene\u201d, -H. Kim, A.R.T. Nugraha, L.G. Booshehri, E.H. H\u00e1roz, K. Sato, G.D. Sanders, K.-J. Yee, Y.-S. Lim, C.J. Stanton, R. Saito, J. Kono, Chemical Physics, 413  55-80 (2013).<\/li>\n
  54. \u201cPhotons and magnetic fields: The use of synchrotron sources to study pairbreaking in superconductors\u201d, Xiaoxiang Xi, C. Martin, J. Hwang, R. S. P. M. Lobo, H. Tashiro, H. Zhang, D. H. Reitze, C. J. Stanton, D. B. Tanner, and G. L. Carr, J. Phys.: Conf. Ser. 359 012010 (2012).<\/li>\n
  55. \u201cOptically Detecting Spin-Split Bands in Semiconductors in Magnetic Fields\u201d, Pan, Y. Sun, D. Saha, G.D. Sanders, M.B. Santos, R.E. Doezema, S. E. Hayes, G. Khodaparast, H. Munekata, Y. H. Matsuda, J. Kono, and C. J. Stanton, Proc. of SPIE Vol. 8461 84611P-1 (2012) (Invited Paper).<\/li>\n
  56. \u201cTime-resolved Spectroscopy of MOVPE-grown III-Mn-V Ferromagnetic Semiconductors\u201d, Giti A. Khodaparast, Mithun Bhowmick, Caitlin Feeser, Bruce W. Wessels, Dipta Saha, Gary D. Sanders, Christopher J. Stanton, Proc. of SPIE Vol. 8461 84611O-1 (2012) (Invited Paper).<\/li>\n
  57. \u201cTime-resolved differential transmission in MOVPE-grown ferromagnetic InMnAs\u201d, Bhowmick, T. R. Merritt, G. A. Khodaparast, Bruce W. Wessels,  Stephen A. McGill,   D. Saha, X. Pan, G. D. Sanders, and C. J. Stanton, Phys. Rev. B 85, 125313  (2012).<\/li>\n
  58. \u201cCircular polarization dependent cyclotron resonance in large-area graphene in ultrahigh magnetic fields\u201d, Layla G. Booshehri, Charles H. Mielke, Dwight G. Rickel,  Scott A. Crooker,  Qi Zhang,  Lei Ren,  Erik H. H\u00e1roz, Avinash Rustagi,  Christopher J. Stanton,  Zhong Jin,  Zhengzong Sun,  Zheng Yan,  James M. Tour, and Junichiro Kono,    Rev . B  85, 205407 (2012).<\/li>\n
  59. \u201cCoherent radial breathing like phonons in graphene nanoribbons\u201d, D. Sanders, A. R. T. Nugraha, R. Saito,  and C. J. Stanton, Phys. Rev. B 85 205401 (2012).<\/li>\n
  60. \u201cExciton-specific diffusion dynamics in ZnO\u201d, Sangwook Byun , H. Jeong,  Min, S. Byun,  C. J. Stanton, D. H. Reitze , J. K.  Yoo, G. C.  Yi, and Y. D.  Jho,  Appl. Phys. Lett. 100,  092106 (2012).<\/li>\n
  61. \u201cCoherent Phonon Dynamics in Short-Period InAs\/GaSb Superlattices\u201d, T. Noe,  H. J. Haugan, G. J. Brown, G. D. Sanders,  C. J. Stanton,  and J. Kono, Superlattices and Microstructures 52 (2012) 1071\u20131077.<\/li>\n
  62. Book Edited: 15th International Conference On Narrow Gap Systems (NGS15), AIP Conference Proceedings 1416, Editors: Giti A. Khodaparast, Michael B. Santos, Christopher J. Stanton.<\/li>\n
  63. \u201cPhotons and magnetic fields: The use of synchrotron sources to study pairbreaking in superconductors\u201d, Xiaoxiang Xi, C. Martin, J. Hwang, R.S.P.M. Lobo, H. Tashiro, H. Zhang, D. H. Reitze, C. J. Stanton, D. B. Tanner  and G. L. Carr, accepted for publication, 6th Workshop on Infrared Spectroscopy and Microscopy with Accelerator-Based Sources, (WIRMS), to be published in Journal of Physics: Conference Series.<\/li>\n
  64. \u201cMagneto-Optical Properties of InSb Semiconductor Heterostructures\u201d Pan, D. Saha, G. D. Sanders, C. J. Stanton, T. Kasturiarachchi, M. Edirisooriya, T. D. Mishima, R. E. Doezema, and M. B. Santos, 15th International Conference on Narrow Gap Systems, (NGS15), AIP Conf. Proc. 1416, 113-117 (2011).<\/li>\n
  65. \u201cTime Resolved Spectroscopy of MOVPE Grown Narrow Gap Ferromagnetic Semiconductors\u201d, Bhowmick, T. Merritt, G. A. Khodaparast,  C. Feeser, B. W. Wessels, S. McGill, D. Saha, X. Pan, G. D. Sanders, and  C. J. Stanton,  15th International Conference on Narrow Gap Systems, (NGS15), AIP Conf. Proc. 1416, 188-191 (2011).<\/li>\n
  66. \u201cCoherent Phonons in Carbon Nanotubes and Graphene\u201d, G. D. Sanders, C. J. Stanton, J. H. Kim, K. J. Yee, M. H. Jung, B. H. Hong, L. G. Booshehri, E. H. H\u00e1roz, J. Kono, 15th International Conference on Narrow Gap Systems, (NGS15), AIP Conf. Proc. 1416, 31-33 (2011).<\/li>\n
  67. \u201cChirality dependence of coherent phonon amplitudes in single-wall carbon nanotubes\u201d, A. R. T. Nugraha, G. D. Sanders, K. Sato, C. J. Stanton, M. S. Dresselhaus, and R. Saito, Phys. Rev. B. 84, 174302 (2011).<\/li>\n
  68. \u201cPolarization dependence of coherent phonon generation and detection in highly-aligned single-walled carbon nanotubes\u201d, L. G. Booshehri, C. L. Pint, G. D. Sanders, L. Ren, C. Sun, E. H. Haroz, J.-H. Kim, K.-J. Yee, Y.-S. Lim, R. H. Hauge, C. J. Stanton and J. Kono, Rev. B 83, 195411 (2011).<\/li>\n
  69. \u201cTime-resolved magnetospectroscopy of quasiparticle dynamics in superconducting Nb(0.5)Ti(0.5)N\u201d, X. Xi, J. Hwang, H. Zhang, C. J. Stanton, H. Reitze, D .B. Tanner, and G. L. Carr,  Physica C, 470 S714 (2010).<\/li>\n
  70. \u201cDefect-enhanced ferromagnetism in Gd- and Si-coimplanted GaN\u201d, R. P. Davies, B. P. Gila, C. R. Abernathy, J. Pearton,  and C. J. Stanton, Appl. Phys. Lett. 96, 212502 (2010).<\/li>\n
  71. \u201cOptically pumped NMR: Revealing spin-dependent Landau level transitions in GaAs\u201d, K. Ramaswamy, S. Mui, S. A. Crooker, X. Pan, G. D. Sanders, C. J. Stanton and S. E. Hayes, Phys. Rev. B 82 085209 (2010).<\/li>\n
  72. \u201cTerahertz Emission from Nanophononic Heterostructures: the Nexus Between Scale and Origin\u201d, H. Jeong, J. Jeong, Y.D. Jho, E. Oh, D. S. Kim, C. J. Stanton, Journal Of The Korean Physical Society 56, 247-250 (2010)<\/li>\n
  73. \u201cUltrafast carrier relaxation and diffusion dynamics in ZnO\u201d, C. J. Cook, S. Khan, G. D. Sanders, X. Wang, D. H. Reitze, Y. D. Jho, Y.-W. Heo, J.-M. Erie, D. P. Norton, and C. J. Stanton, Proc. SPIE 7603, 760304 (2010).<\/li>\n
  74. \u201cCyclotron Resonance in P-doped InSb Quantum Wells\u201dM.B. Santos , M. Edirisooriya, T.D. Mishima, C.K. Gaspe, J. Coker, R.E. Doezema, X. Pan, G.D. Sanders, C.J. Stanton, L.C. Tung, and Y-J. Wang, Physics Procedia 3 1201-1205 (2010).<\/li>\n
  75. \u201cManifestation of Landau Level Effects in Optically-Pumped NMR of Semi-insulating GaAs\u201d, S. Mui, K. Ramaswamy, C. J. Stanton, S. A. Crooker, S. E. Hayes, Chem. Chem. Phys., 11, 7031 (2009).<\/li>\n
  76. \u201cResonant Coherent Phonon Spectroscopy of Single-Walled Carbon Nanotubes\u201d, G. D. Sanders, C. J. Stanton, J.-H. Kim,K.-J. Yee, Y.-S. Lim,E. H. Haroz, L. G. Booshehri, J. Kono, and R. Saito, Rev. B.  79, 205434 (2009).<\/li>\n
  77. \u201cChirality-Selective Excitation of Coherent Phonons in Carbon Nanotubes by Femtosecond Optical Pulses\u201d, J. H. Kim, K. J. Han, N. J. Kim, K. J. Yee, Y. S. Lim, G. D. Sanders, C. J. Stanton, L. G. Boosheri, E. H. Haroz, J. Kono, Phys. Rev. Lett. 102 037402 (2009).<\/li>\n
  78. \u201cGd-doped III-nitride Dilute Magnetic Semiconductor Materials\u201d, R. P. Davies, M. Ivill, J. K. Hite, R. M. Frazier, B. P. Gila, G. T. Thaler, C. R. Abernathy, S. J. Pearton, C. J. Stanton, J. M. Zavada, in Rare-Earth Doping of Advanced Materials for Photonic Applications, edited by V. Dierolf, Y. Fujiwara, U. Hommerich, P. Ruterana, J. Zavada (Mater. Res. Soc. Symp. Proc. Volume 1111, Warrendale, PA, 2009), 5.<\/li>\n
  79. \u201cSuperfluorescence from Magnetically Formed Quantum Dots: the Excitation Pulse-Width Dependence\u201d, Young-Dahl Jho,  Jinho Lee, Gary D. Sanders, Christopher J. Stanton, David H. Reitze, Junichiro Kono,  Alexey A. Belyanin,  Journal of the Optical Society of Korea, 12 57 (2008)<\/li>\n
  80. \u201cMagnetoexcitons in Strained InSb Quantum Wells,\u201d W. Gempel, X. Pan, T. Kasturiarachchi, G.D. Sanders, M. Edirisooriya, T.D. Mishima, R.E. Doezema, C.J. Stanton, and M.B. Santos, Springer Proceedings in Physics 119 213 (2008).<\/li>\n
  81. \u201cCarrier dynamics and coherent acoustic phonons in nitride heterostructures\u201d, G. D. Sanders, C. J. Stanton, Phys. Rev. B 74 205303 (2006).<\/li>\n
  82. \u201cUltrafast Magneto-Optics in Ferromagnetic III-V Semiconductors\u201d J. Wang, J. Kono, G. A. Khodaparast, L. Cywinski, L. J. Sham, G. D. Sanders, C. J. Stanton, Phys.: Condens. Matter 18 (2006) R501\u2013R530.<\/li>\n
  83. \u201cTime-Resolved, Far-Infrared Studies of Superconducting NbTiN Film in a Magnetic Field\u201d, Zhang, H. Tashiro, R. P. S. M. Lobo, D. H. Reitze, C. J. Stanton, D. B. Tanner, and G. L. Carr,  CP850, 24TH International Conference on Low Temperature Physics, Eds. Y. Takano, S. P.Hershfield, S. Hill, P. J. Hirschfeld, A. M. Goldman,  981 (2006).<\/li>\n
  84. \u201cTheory of carrier dynamics and time resolved reflectivity in InMnAs\/GaSb heterostructures\u201d, G. D. Sanders, C. J. Stanton, J. Wang, J. Kono, A. Oiwa, H. Munekata, Phys. Rev. B 72 245302 (2005).<\/li>\n
  85. \u201cThe role of Coulomb interactions in dark-bright magnetoexciton mixing in strained quantum wells\u201d, Y. D. Jho, V. Kyrychenko, J. Kono, X. Wei, S. A. Crooker, G. D. Sanders, D. H. Reitze, C. J. Stanton, G. S. Solomon, Phys. Rev. B 72 045340 (2005).<\/li>\n
  86. \u201cPropagating Coherent Acoustic Phonon Wavepackets in InMnAs\/GaSb,\u201d Wang, Y. Hashimoto, J. Kono, A. Oiwa, H. Munekata, G. D. Sanders, and C. J. Stanton, Physical Review B 72  153311 (2005).<\/li>\n
  87. \u201cInvestigation of a GaMnN\/GaN\/InGaN structure for spin LED\u201d, F.V. Kyrychenko, C.J. Stanton, C.R. Abernathy, S.J. Pearton, F. Ren, G. Thaler, R. Frazier, I. Buyanova, J.P. Bergman and W.M. Chen, Physics of Semiconductors: 27th International Conference on the Physics of Semiconductors,  by Jose Menendez and Chris G. Van de Walle, American Institute of Physics, pp. 1319-1320 (2005).<\/li>\n
  88. \u201cObservation of photoluminescence from magneto-plasmas under intense femtosecond excitation in strong magnetic field\u201d, Y. D. Jho, X. Wang, G. D. Sanders, R. H. Reitze, C. J. Stanton, J. Kono, X. Wei, G. S. Solomon, International Journal of Modern Physics B 18, 3775 (2004).<\/li>\n
  89. \u201cInterband Magneto-spectroscopy of a High Density Two-Dimensional Electron Gas in a Strong In-Plane Magnetic Field\u201d, D. Jho, X. Wang, F. V. Kyrychenko, D. H. Reitze, C. J. Stanton, J. Kono, X. Wei, S. A. Crooker, C. Kadow, A. C. Gossard, International Journal of Modern Physics B 18, 3831 (2004).<\/li>\n
  90. \u201cOptical study of spin injection dynamics in InGaN\/GaN quantum wells with GaMnN injection layers\u201d, Buyanova IA, Bergman JP, Chen WM, Thaler G, Frazier R, Abernathy CR, Pearton SJ, Kim J, Ren F, Kyrychenko FV, Stanton CJ, Pan CC, Chen GT, Chyi J, Zavada JM, Journal Of Vacuum Science & Technology B 22 2668-2672 (2004).<\/li>\n
  91. \u201cUltrahigh Field Hole Cyclotron Resonance Absorption in InMnAs Films\u201d, Y . H. Matsuda, G. A. Khodaparast, M. A. Zudov, J. Kono, Y. Sun, F V. Kyrychenko, G. D. Sanders, C. J. Stanton, N. Miura, S. Ikeda, Y. Hashimoto, S. Katsumoto, and H. Munekata, Phys. Rev. B. 70 195211 (2004).<\/li>\n
  92. \u201cTHz Radiation and acoustic phonon pulse wave from GaN-based light emitting diode structures generated by ultra short pulse lasers\u201d, E. Oh, J. Y. Sohn, J. S. Yahng, Y. D. Jho, D. S. Kim, G. D. Sanders, and C. J. Stanton, Proceedings of SPIE Vol. 5352, 180 (2004).<\/li>\n
  93. \u201cFemtosecond Pump-probe Spectroscopy of Propagating Coherent Acoustic Phonons in GaN\/InGaN Heterostructures\u201d, R. Liu, G. D. Sanders, C. J. Stanton, C. S. Kim, J.. S. Yahng, Y. D. Jho, K. J. Yee, E. Oh, D. S. Kim, Phys. Rev. B. 72  195335 (2005).<\/li>\n
  94. \u201cUltrafast Carrier Dynamics in Ferromagnetic InGaMnAs\u201d, J. Wang, J. Kono, H. Munekata and C. J. Stanton, Superlattices and Microstructures 34 563 (2003).<\/li>\n
  95. \u201cCoherent Phonons, Nanoseismology and THz Radiation in InGaN\/GaN Heterostructures\u201d, C. J. Stanton, G. D. Sanders, R. Liu, G. W. Chern, C. \u2013K. Sun , J. S. Yahng, J. Y. Sohn, Y. D. Jho, E. Oh, D. S. Kim Superlattices and Microstructures 34 525 (2003).<\/li>\n
  96. \u201cHigh-Field Cyclotron Resonance Studies of InMnAs-Based Ferromagnetic Semiconductor Heterostructures\u201d, G. A. Khodaparast, J. Kono, Y. H. Matsuda, S. Ikeda, N. Miura, Y. J.Wang, T. Slupinski, A. Oiwa, H. Munekata, Y. Sun, F. V. Kyrychenko, G. D. Sanders, and C. J. Stanton, Physica E 21, 978 (2004).<\/li>\n
  97. \u201cInterband magnetoabsorption study of the shift of the Fermi energy of a 2DEG with an in-plane magnetic field\u201d, F. V. Kyrychenko, Y. D. Jho, J. Kono, S. Crooker, G. D. Sanders, D. H. Reitze, C. J. Stanton, X. Wei, C. Kadow, A. C. Gossard, Physica E 22, 624 (2004).<\/li>\n
  98. \u201cDetermining Carrier Densities in InMnAs by Cyclotron Resonance\u201d, G. D. Sanders, Y. Sun, C. J. Stanton, G. A. Khodaparast, J. Kono, D. S. King, Y. H. Matsuda, S. Ikeda, N. Miura, A. Oiwa, and H. Munekata, Physica E 20 378 (2004).<\/li>\n
  99. \u201cElectron-active Cyclotron Resonance in p-type InMnA in High Magnetic Fields\u201d, Sun, G. D. Sanders, F. V. Kyrychenko, C. J. Stanton, G. A. Khodaparast, J. Kono, Y. H. Matsuda, N. Miura, and H. Munekata, Physica E 20 374 (2004).<\/li>\n
  100. \u201cCyclotron Resonance and Magneto-Optics in n Type InMnAs\u201d, G. D. Sanders, F. V. Kyrychenko, Y.Sun, C. J. Stanton, G. A. Khodoparast, J. Kono, Y. H. Matsuda, N. Miura, T. Slupinski, A. Oiwa, and H. Munekata, Phys. Rev. B. 68, 165205 (2003).<\/li>\n
  101. \u201cExceptionally Slow Rise in Differential Reflectivity Spectra of Excitons in GaN: Effect of Excitation Induced Dephasing\u201d, Y. D. Jho, D. S. Kim, A. J. Fischer, J. J. Song, J. Kenrow, K. El Sayed and C. J. Stanton, Phys. Rev. B. 68 16532 (2003).<\/li>\n
  102. \u201cGeneration of Coherent Acoustic Phonons in Nitride-Based Semiconductor Nanostructures\u201d, G.-W. Chern, C. \u2013K. Sun, G. D. Sanders, and C. J. Stanton, Ultrafast Dynamical Processes in Semiconductors, Springer Series on\u201cTopics in Applied Physics\u201d, Frank Tsen, editor, Vol. 92 , pp. 339-394 (2004).<\/li>\n
  103. \u201cTerahertz Dynamics of Photo-generated Carriers in Ferromagnetic InGaMnAs\u201d, G. A. Khodaparast, D. C. Larrabee, J. Kono, D. S. King, J. Kato, T. Slupinski, A. Oiwa, H. Munekata, G. D. Sanders, and C. J. Stanton, Journal of Applied Physics, 93 8286 (2003).<\/li>\n
  104. \u201cTheoretical and Experimental Studies of Cyclotron Resonance in p-type InAs and InMnAs at Ultrahigh Magnetic Fields\u201d, G. D. Sanders, Y. Sun, C. J. Stanton, G. A. Khodaparast, J. Kono, Y. H. Matsuda, N. Miura, T. Slupinski, A. Oiwa, and H. Munekata, Journal of Applied Physics 93  6897 (2003).<\/li>\n
  105. \u201cCyclotron Resonance of Electrons and Holes in Paramagnetic and Ferromagnetic InMnAs-Based Films and Heterostructures\u201d, G. A. Khodaparest, M. A. Zudov, J, Kono, Y. H. Matsuda, T. Ikaida, S. Ikeda, N. Miura, T. Slupinski, A. Oiwa, H. Munekata, G. D. Sanders, Y. Sun, and C. J. Stanton, Journal of Superconductivity, 16 107 (2003).<\/li>\n
  106. \u201cTheory of cyclotron resonance and magneto-optics in n- and p-type InMnAs in ultrahigh magnetic fields\u201d, G. D. Sanders, Y. Sun, C. J. Stanton, G. A. Khodaparest, J, Kono, Y. H. Matsuda, N. Miura, T. Slupinski, A. Oiwa, and H. Munekata, Journal of Superconductivity, 16 449 (2003).<\/li>\n
  107. \u201cUltrahigh field electron cyclotron resonance absorption in In1-xMnx As films\u201d, M. Zudov, J. Kono, Y. H. Matsuda, T. Ikaida, N. Miura, H. Munekata, G. D. Sanders, Y. Sun, and C. J. Stanton , Phys. Rev. B 66, 161307(R) (2002).<\/li>\n
  108. \u201cProbing Strained InGaN\/GaN Nanostructures with Ultrashort Acoustic Phonon Wavepackets Generated by Femtosecond Lasers\u201d, J. S. Yahng, Y. D. Jho, K. J. Jee, E. Oh, J. C. Woo, D. S. Kim, G. D. Sanders and C. J. Stanton, Appl. Phys. Lett., 80, 4723 (2002).<\/li>\n
  109. \u201cCoherent Acoustic Phonons in GaN and GaN\/InGaN Heterostructures\u201d, C. J. Stanton, G. D. Sanders, R. L. Liu, C. S. Kim, J. S. Yahng, E. Oh, D. S. Kim and C. K. Sun, in Ultrafast Phenomena in Seminconductors VI, K. T. Tsen, J. J. Song, H. Jiang eds. Proceedings of SPIE 4643, 124 (2002).<\/li>\n
  110. \u201cNano Seismology: Acoustic Shock Wave Generation and TeraHertz emission from InGaN\/GaN Structures\u201d, J. Y. Sohn, J. S. Yanhng, D. J. Park, D. S. Kim, E. Oh, J. C. Woo, G. D. Sanders and C. J. Stanton, (Proceedings of 28th International Symposium on Compound Semiconductors, ISCS (2001)) Compound Semiconductors 2001, Institute Of Physics Conference Series (170) 387-393 (2002).<\/li>\n
  111. \u201cTheory of Coherent Acoustic Phonons in InGaN\/GaN Multi-Quantum Wells\u201d, G. D. Sanders, C. J. Stanton and C. S. Kim, Phys. Rev. B 64 235316 (2001). \u201cErratum: Theory of coherent acoustic phonons in InGanN\/GaN multiple quantum wells\u201d, G. D. Sanders, C. J. Stanton and C. S. Kim, Phys. Rev. B 66 079903(E) (2002).<\/li>\n
  112. \u201cTheory of Coherent Oscillation of Phonon-Polaritons\u201d, C. S. Kim, A. M. Satanin, G. D. Sanders and C. J. Stanton, Proceedings of the 25th International Conference on the Physics of Semiconductors , Osaka (2000), N. Miura, T. Ando, eds., Springer-Verlag, Berlin, pp. 210-211, (2001).<\/li>\n
  113. \u201cTheory of Coherent Phonon Oscillations in Bulk GaAs\u201d, A. V. Kuznetsov and C. J. Stanton, in Ultrafast Phenomena in Semiconductors, Frank Tsen Springer-Verlag, New York, 353-403 (2001).<\/li>\n
  114. \u201cFemtosecond pump-probe and four-wave mixing studies of excitons in GaN\u201d, Y. D. Jho, S. Kim, A. J. Fischer and J. J. Song, J. Kenrow, K. El Sayed and C. J. Stanton in Ultrafast Phenomena in Semiconductors IV, Kong Than Tsen, Jin-Joo Song, Editors, Proceedings of SPIE Vol. 3940  279 (2000).<\/li>\n
  115. \u201cThe Influence of Surfaces and Interfaces on the Coherent Phonons in Semiconductors\u201d, C. K. Sun, J. C. Liang, S. P. DenBars, D. S. Kim, Y. D. Cho, G. D. Sanders, J. Simmons and C. J. Stanton, Superlattices and Microstructures 27 593 (2000).<\/li>\n
  116. \u201cLarge coherent acoustic-phonon oscillation observed in InGaN\/GaN multiple-quantum wells\u201d, C. K. Sun, J. C. Liang, C. J. Stanton, A. Abare, L. Coldren and S. P. DenBars, Appl. Phys. Lett. 75 1249 (1999).<\/li>\n
  117. “Femtosecond Coherent and Incoherent Spectroscopies on a GaN Epilayer”, Y. D. Cho, D. S. Kim, A. J. Fischer, J. J. Song, J. Kenrow, K. El Sayed, and C. J. Stanton, Proceedings of International Conference on the Physics of Semiconductors, 1998.<\/li>\n
  118. “Probing seminconductor carrier kinetics with ultrafast nonlinear Faraday rotation”, J. A. Kenrow, K. El Sayed, and C. J. Stanton, Rev. B 58 R13 399 (1998).<\/li>\n
  119. “Theory of coherent phonon ocillations in nonpolar and polar semiconductors”, Alex V. Kuznetsov and C. J. Stanton, in “Ultrafast Phenomena in Semiconductors II”, Proceedings of SPIE 3277 28 (1998).<\/li>\n
  120. “Quantum Control in Quantum Wells”, Jeffrey L. Krause, David H. Reitze, Gary D. Sanders, A. V. Kuznetsov and Christopher J. Stanton, Rev. B 57   9024 (1998).<\/li>\n
  121. “Simulation of infrared pump-probe spectroscopy in n-type quantum wells”, G. D. Sanders and C. J. Stanton, Phys. Rev. B 57 9148 (1998).<\/li>\n
  122. “Femtosecond relaxation kinetics of highly excited electronic wave packets”, K. El Sayed, J. A. Kenrow, and C. J. Stanton, Phys. Rev. B 57 12,369 (1998).<\/li>\n
  123. “Theory of femtosecond ellipsometry in Ge at 1.5 eV”, Stefan Zollner, K. D. Myers, J. M. Dolan and C. J. Stanton, Thin Solid Films 313–314 568 (1998).<\/li>\n
  124. “Interwell Excitons in GaAs Superlattices”, D. Birkedal, K. El Sayed, G. Sanders, C. Spiegelberg, V. G. Lyssenko, C. Stanton, J. M. Hvam, V. B. Timofeev and M. Bayer, Superlattices and Microstructures 21 587 (1997).<\/li>\n
  125. “Interaction Induced Electron Self-Interference in a Semiconductor: The Phonon Staircase Effect”, J. A. Kenrow,K. El Sayed, and C. J. Stanton, Phys. Rev. Lett. 78 4873 (1997).<\/li>\n
  126. “Femtosecond hole dynamics in Ge studied by pump-probe reflectivity”, S. Zollner, K. D. Myers, K. G. Jenson, J. M. Dolan, D. W. Bailey, and C. J. Stanton, Solid State Communications. 104 51 (1997).<\/li>\n
  127. “Lineshape Analysis of Differential Transmission Spectra in the Coherent Regime”, K. El Sayed, and C. J. Stanton, Phys. Rev. B 55 9671 (1997).<\/li>\n
  128. “Femtosecond Time-Resolved Reflectivity of Ge”, K. D. Myers, S. Zollner, R. Lange, K. G. Jenson, J. M. Dolan, D. W. Bailey, and C. J. Stanton, in Proceedings of the 23 International Conference on the Physics of Semiconductors, edited by M. Scheffler and R. Zimmerman, World Scientific, Singapore, vol. 1, 673–676 (1996).<\/li>\n
  129. “Interwell Excitons in GaAs Superlattices”, D. Birkedal, K. El Sayed, G. Sanders, C. Spiegelberg, V. G. Lyssenko, C. Stanton, J. M. Hvam, V. B. Timofeev and M. Bayer, Phys. Rev. B 54 10316 (1996).<\/li>\n
  130. “Theory of the Generation and Detection of Carriers in Ultrafast Pump-and-Probe Spectroscopy of Semiconductors”, A. V. Kuznetsov, C. J. Stanton and C.S Kim, Journal of Applied Physics 80 5899 (1996).<\/li>\n
  131. “Hot Carrier Effects in Femtosecond Gain Dynamics of InGaAs\/AlGaAs Quantum Well Lasers”, G. D. Sanders, C.-K. Sun, B. Golubovic, J. G. Fujimoto and C. J. Stanton, in Hot Carriers in Semiconductors, Plenum Publishing, NY, 579–581, (1996).<\/li>\n
  132. “Ultrafast Dynamics of Electronic Wavepackets in Quantum Wells”, Gary D. Sanders, Alex V. Kuznetsov and Christopher J. Stanton, in Hot Carriers in Semiconductors, Plenum Publishing, NY, 165–167, (1996).<\/li>\n
  133. “Theory of Coherent Phonon Oscillations in Semiconductors”, Alex V. Kuznetsov, and Christopher J. Stanton, in Hot Carriers in Semiconductors, Plenum Publishing, NY, 217–220, (1996).<\/li>\n
  134. “Carrier dynamics study of CdxZn1–xSe\/ZnSe (x=0.2) multiple quantum wells”, Li Wang, J. Simmons, M. N. Jeon, R. M . Park, and C. J. Stanton, Journal of Electronic Materials 25 177 (1996).<\/li>\n
  135. “Carrier-carrier scattering in the gain dynamics of InGaAs\/GaAs diode lasers”, G. D. Sanders, C.-K. Sun, B. Golubovic, J. G. Fujimoto and C. J. Stanton, Physical Review B 54 8005 (1996).<\/li>\n
  136. “Interwell excitions in GaAs multiple quantum wells and superlattices”, D. Birkedal, K. E. Sayed, G. Sanders, V. G. Lyssenko, C. Stanton, and J. M. Hvam, Il Nuovo Cimento, 17 1359- 1366, (1995)<\/li>\n
  137. “Theory of carrier gain dynamics in InGaAs\/AlGaAs strained-layer single-quantum-well lasers”, G. D. Sanders, C. J. Stanton, C.-K. Sun, B. Golobovic and J. G. Fujimoto, Superlattices and Microstructures. 17 355 (1995).<\/li>\n
  138. “Wavepacket Dynamics in Quantum Wells”, A.V. Kuznetsov, G. D. Sanders, and C. J. Stanton, Physical Review B 52 12045 (1995).<\/li>\n
  139. “Coherent Phonon Oscillations in GaAs”, V. Kuznetsov, and C. J. Stanton, Physical Review B 51 7555 (1995).<\/li>\n
  140. “Calculations of femtosecond differential optical transmission in germanium”, D. W. Bailey, and C. J. Stanton, Journal of Applied Physics. 77 2107 (1995).<\/li>\n
  141. “Femtosecond Spectral Hole Burning in InGaAs\/AlGaAs Strained Layer Single-Quantum-Well Diode Lasers,” C.-K. Sun, B. Golubovic, H. K. Choi, C. A. Wang, G. D. Sanders, J. Stanton, and  J. G. Fujimoto,  in Ultrafast Phenomena, Vol. 7, 1994 OSA Technical Digest Series (Optical Society of America, Washington, DC, 1994), p. 476; Springer Series in Chemical Physics: Ultrafast Phenomena IX, Berlin Heidelberg, Springer-Verlag, p. 399, (1994).<\/li>\n
  142. “Femtosecond studies of spectral hole burning in semiconductor lasers,” C.-K. Sun, B. Golubovic, H. K. Choi, C. A. Wang, G. D. Sanders, J. Stanton, and  J. G. Fujimoto, in conference proceedings of IEEE Lasers and Electro-Optics Society 7th Annual Meeting, Boston, MA (1994), paper U01.3.<\/li>\n
  143. “Theory of Coherent Phonon Oscillations in Semiconductors”, A. V. Kuznetsov, and C. J. Stanton, Phys. Rev. Lett. 73 3243 (1994).<\/li>\n
  144. “Carrier Gain Dynamics in InGaAs\/AlGaAs Strained-layer single-well diode lasers” G. D. Sanders, G. –K. Sun, J. G. Fujimoto, K. Choi, C. A. Wang and C. J. Stanton, Physical Review B 50  8539 (1994).<\/li>\n
  145. “DC electric field dependence of THz radiation induced by femtosecond optical excitation of bulk GaAs”, B.B. Hu, A. S. Weling, D. H. Auston, A. V. Kuznetsov and C. J. Stanton, Phys. Rev. B 49 2234 (1994).<\/li>\n
  146. “Ultrafast Optical Generation of Carriers in Semiconductors in a D.C. Electric Field”, A. V. Kuznetsov, and C. J. Stanton, in Coherent Optical Interactions in Semiconductors,  Plenum Publishing, NY 337\u2014341 (1994).<\/li>\n
  147. “Optical Generation and Detection of Carriers in Ultrafast Pump-Probe Spectroscopy of Semiconductors”, J. Stanton, A. V. Kuznetsov, and  C.S Kim, in Coherent Optical Interactions in Semiconductors,  Plenum Publishing, NY 307–311 (1994).<\/li>\n
  148. “Theory of the Generation and Detection of Carriers in Ultrafast Photoexcitation Experiments in Semiconductors” C.S Kim, A. V. Kuznetsov, and C. J. Stanton, Semicond. Sci. Technol. 9436, (1994).<\/li>\n
  149. “Quantum Size effects on the Band Edge of CdTe Clusters in Glass”, B. G. Potter, Jr., J. H. Simmons, P. Kumar and C. J. Stanton, Journal of Applied Physics 75 8039–8045 (1994).<\/li>\n
  150. “Theory of Electronic, Optical, and Transport Properties in Silicon Quantum Wires”, G. D. Sanders, C. J. Stanton, and Y. C. Chang, in the conference proceedings for the International Workshop on Light Emission and Electronic Properties of Nanoscale Silicon, pp. 39–40 (Charlotte, North Carolina, 1993).<\/li>\n
  151. “Ultrafast optical generation of carriers in a DC electric field: transient localization and transient photocurrent”, A. V. Kuznetsov, and C. J. Stanton, Physical Review B48 10828 (1993).<\/li>\n
  152. “Theory of Transport in Silicon Quantum Wires”, G. D. Sanders, C. J. Stanton, and Y. C. Chang, Physical Review B48 11067 (1993).<\/li>\n
  153. “Femtosecond Tunable Nonlinear Absorption Spectroscopy”, M. Ulman, D. W. Bailey, L. H. Acioli, F. G. Vallee, C. J. Stanton, E. P. Ippen, and J. G. Fujimoto, Physical Review B 47, 10267 (1993).<\/li>\n
  154. “Zero Frequency Current Noise for the Double Tunnel Junction Coulomb Blockade”, Selman Hershfield, John H. Davies, Per Hyldgaard, Christopher J. Stanton, and John W. Wilkins, Physical Review B 47 ,1967 (1993).<\/li>\n
  155. “Coulomb Enhancement for the Above Band Edge Pump-Continuum Probe Nonlinear Absorption”, C. J. Stanton and D. W. Bailey, Physical Review B 47 1624, (1993).<\/li>\n
  156. “Theory of Electronic, Optical, and Transport Properties in Silicon Quantum Wires”, G. D. Sanders, C. J. Stanton, and Y. C. Chang, Mat. Res. Soc. Symp. Proc. Vol. 238, Boston, (1992).<\/li>\n
  157. “Noise as a Diagnostic of Tunneling Mechanisms”, J. W. Wilkins, S. Hershfield, J. H. Davies, P. Hyldgaard and C. J. Stanton, Physica Scripta T42, 115 (1992).<\/li>\n
  158. “Rate Equations for Femtosecond Intervalley Scattering in Compound Semiconductors”, C. J. Stanton, and D. W. Bailey, Physical Review B 45 8369 (1992).<\/li>\n
  159. “Carrier Diffusion Effects in Time-Resolved Photoluminescence”, D. W. Bailey, and C. J. Stanton, Appl. Phys. Lett. 60, 880 (1992).<\/li>\n
  160. “Evaluating Photoexcitation Experiments Using Monte Carlo Simulations”, C. J. Stanton and D. W. Bailey, in Monte Carlo Device Simulation: Full Band and Beyond, K. Hess ed., Kluwer Academic, Boston pp. 67–97 (1991).<\/li>\n
  161. “Acoustic Mode with Time-Dependent Phase Velocity in Photoexcited Semiconductors”, B. Hu, C. J. Stanton, and J. W. Wilkins, Physical Review B 44 , 11067 (1991).<\/li>\n
  162. “Matrix Method of Solution of the Boltzmann Equation for Hot Acceptor Photoluminescence”, Y. S. Sun, and C. J. Stanton, Physical Review B 43, 2285 (1991).<\/li>\n
  163. “Dynamics of Photoexcited Carriers in GaAs”, C. J. Stanton and D. W. Bailey, in Computational Electronics: Semiconductor Transport and Device Simulation, Kluwer Academic, Boston (1991).<\/li>\n
  164. “Numerical Studies of Femtosecond Carrier Dynamics in GaAs”, D. W. Bailey, C. J. Stanton, and K. Hess, Physical Review B 42, 3423 (1990).<\/li>\n
  165. “Femtosecond Pump-Continuum Probe Nonlinear Absorption in GaAs”, C. J. Stanton, D.W. Bailey, and K. Hess, Phys. Rev. Lett. 65, 231 (1990).<\/li>\n
  166. Book review of “Quantum Processes in Semiconductors, 2nd Ed. by B. K. Ridley”, in International Journal of Quantum Chemistry 37, 309 (1990).<\/li>\n
  167. “Femtosecond Studies of Intervalley Scattering in GaAs and A1GaAs”, D.W. Bailey, C. J. Stanton, K. Hess, R. Schoenlein, M. Lagasse and J. Fujimoto, Solid State Electronics 32, 1491 (1989).<\/li>\n
  168. “Monte Carlo Simulations of Femtosecond Spectroscopy in Semiconductors”, D.W. Bailey, C. J. Stanton, and K. Hess, in SPIE Vol. 942, Ultrafast Laser Probe Phenomena in Bulk and Microstructure Semiconductors II, pp. 40-46(1988).<\/li>\n
  169. “Monte Carlo Modeling of Femtosecond Relaxation Phenomena in GaAs and GaAs\/A1GaAs Quantum Wells”, Christopher J. Stanton, Daniel W. Bailey, and Karl Hess, Journal of Quantum Electronics 24, 1614 (1988).<\/li>\n
  170. “Band Structure Effects on the Femtosecond Energy Relaxation of Photoexcited Carriers in A1GaAs\/GaAs Quantum Wells”, Christopher J. Stanton, Daniel W. Bailey, Karl Hess, and Y.C. Chang, Phys. Rev. B 37, 6575 (1988).<\/li>\n
  171. “Ensemble Monte Carlo Simulations of Femtosecond Energy Relaxation of Photoexcited Electrons in Bulk GaAs”, D.W. Bailey, C. J. Stanton, M.A. Artaki, K. Hess, F.W. Wise, and C.L. Tang, Solid State Electron. 31, 467 (1988).<\/li>\n
  172. “Ensemble Monte Carlo Simulations of Femtosecond Thermalization of Low-Energy Photoexcited Electrons in GaAs Quantum Wells”, D.W. Bailey, M.A. Artaki, C. J. Stanton, and K. Hess, Journ. of Appl. Phy. 62, 4639 (1987).<\/li>\n
  173. “Hot-Electron Noise in Two-Valley Semiconductors: An Analytic Model”, Christopher J. Stanton and John W. Wilkins, Phys. Rev. B 36, 1686 (1987).<\/li>\n
  174. “Nonequilibrium Current Fluctuations in Semiconductors: A Boltzmann-Equation-Green Function Approach”, Christopher J. Stanton, and John W. Wilkins, Phys. Rev. B 35, 9722 (1987).<\/li>\n
  175. “Exact Solution of a Transport Equation for Hot-Electron Effects in Semiconductors and Metals”, Sanjoy K. Sarker, Y.-K. Hu, Christopher J. Stanton, and John W. Wilkins, Phys. Rev. B 35, 9229 (1987).<\/li>\n
  176. “Electron-Electron Scattering in Nondegenerate Semiconductors: Driving the Anisotropic Distribution toward a Displaced Maxwellian”, Ned S. Wingreen, Christopher J. Stanton, and John W. Wilkins, Phys. Rev. Lett. 57, 1084 (1986). Reply to Comment. Phys. Rev. Lett. 59, 376 (1986).<\/li>\n
  177. “Analytic Boltzmann Equation Approach for Negative Differential Mobility in Two-Valley Semiconductors”, Christopher J. Stanton, Harold U. Baranger, and John W. Wilkins, Appl. Phys. Lett. 49, 176 (1986).<\/li>\n
  178. “Non-Equilibrium Current Fluctuations in Finite Size Semiconductors”, Christopher J. Stanton, and John W. Wilkins, Physica 134B, 255 (1985).<\/li>\n
  179. “Random-Walk Model of Equilibrium Resistance Fluctuations”, C.J. Stanton, and Mark Nelkin, J. Stat. Phys. 37, 1 (1984).<\/li>\n<\/ol>\n<\/div>\n<\/div>\n<\/div><\/div><\/div><\/section>\n<\/div>\n<\/div>\n<\/div><\/div><\/div><\/section>\n","protected":false},"excerpt":{"rendered":"","protected":false},"author":11,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"featured_post":"","footnotes":"","_links_to":"","_links_to_target":""},"class_list":["post-19","page","type-page","status-publish","hentry"],"acf":[],"_links":{"self":[{"href":"https:\/\/people.clas.ufl.edu\/stanton\/wp-json\/wp\/v2\/pages\/19","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/people.clas.ufl.edu\/stanton\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/people.clas.ufl.edu\/stanton\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/people.clas.ufl.edu\/stanton\/wp-json\/wp\/v2\/users\/11"}],"replies":[{"embeddable":true,"href":"https:\/\/people.clas.ufl.edu\/stanton\/wp-json\/wp\/v2\/comments?post=19"}],"version-history":[{"count":10,"href":"https:\/\/people.clas.ufl.edu\/stanton\/wp-json\/wp\/v2\/pages\/19\/revisions"}],"predecessor-version":[{"id":259,"href":"https:\/\/people.clas.ufl.edu\/stanton\/wp-json\/wp\/v2\/pages\/19\/revisions\/259"}],"wp:attachment":[{"href":"https:\/\/people.clas.ufl.edu\/stanton\/wp-json\/wp\/v2\/media?parent=19"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}