Facebook Twitter Instagram YouTube

Scientific Publications Database

Export 10675 results:
[ Author(Desc)] Keyword Title Type Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
Z
Zhekov SA, McCray RA, Dewey D, Canizares CR, Borkowski KJ, Burrows DN, Park S. High-Resolution X-ray Spectroscopy of SNR 1987A: Chandra LETG and HETG Observations in 2007. The Astrophysical Journal. 2009 ;692(2):1190 - 1204.
Zhekov SA, Myasnikov AV. Colliding Stellar Winds: “Asymmetric” Thermal Conduction. The Astrophysical Journal [Internet]. 2000 ;543(1):L53 - L56. Available from: http://stacks.iop.org/1538-4357/543/i=1/a=L53
Zhekov SA, Gagne M, Skinner SL. XMM-Newton Observations Reveal Very High X-ray Luminosity from the Carbon-rich Wolf-Rayet Star WR 48a. The Astrophysical Journal. 2011 ;727:L17.
Zhekov SA, Park S. Chandra HETG Observations of the Colliding Stellar Wind System WR 147. The Astrophysical Journal [Internet]. 2010 ;721(1):518 - 529. Available from: http://stacks.iop.org/0004-637X/721/i=1/a=518?key=crossref.37d0767983d8dd5deb26d029f4531bbb
Zhekov SA, Myasnikov AV, Belov NA. Radiative colliding winds models: the stagnation point singularity. In: Wolf-Rayet Phenomena in Massive Stars and Starburst Galaxies, Proceedings of IAU Symposium 193, p. 402. Wolf-Rayet Phenomena in Massive Stars and Starburst Galaxies, Proceedings of IAU Symposium 193, p. 402. Puerto Vallarta, Mexico: San Francisco, Calif. : Astronomical Society of the Pacific; 1999. Available from: http://adsabs.harvard.edu/full/1999IAUS.193.402Z
Zheng W, Kriss GA, Deharveng J-M, Dixon WV, Kruk JW, Shull JM, Giroux ML, Morton DC, Williger GM, Friedman SD, et al. A Study of the Reionization History of Intergalactic Helium with FUSE and the Very Large Telescope. The Astrophysical Journal [Internet]. 2004 ;605(2):631 - 644. Available from: http://stacks.iop.org/0004-637X/605/i=2/a=631
Zheng W, Gallagher AC. Hydrogen dissociation on high-temperature tungsten. Surface Science. 2006 ;600(10):2207 - 2213.
Zheng W, Gallagher AC. Radical species involved in hotwire (catalytic) deposition of hydrogenated amorphous silicon. Thin Solid Films. 2008 ;516(6):929 - 939.
Zheng W, Gallagher AC. Hot wire radicals and reactions. Thin Solid Films. 2006 ;501(1-2):21 - 25.
Zhong L, S. Kenany A, Backes M, Brubaker M, Cahn B, Carosi G, Gurevich V, Kindel F, Lamoreaux K, Lehnert W, et al. Results from phase 1 of the HAYSTAC microwave cavity axion experiment. Physical Review D. 2018 ;9731(9).
Zhou X, Kapteyn HC, Murnane MM. Positive-dispersion cavity-dumped Ti: sapphire laser oscillator and its application to white light generation. Optics Express. 2006 ;14:9750.
Zhou G, Bintz L, Anderson DZ, Bright KE. A life-sized physical model of the human cochlea with optical holographic readout. The Journal of the Acoustical Society of America. 1993 ;93:1516.
Zhou J, Taft G, Huang C-P, Murnane MM, Kapteyn HC, Christov IP. Pulse evolution in a broad-bandwidth Ti:sapphire laser. Optics Letters. 1994 ;19.
Zhou X, Ranitovic P, Hogle CW, Eland JHD, Kapteyn HC, Murnane MM. Probing and controlling non-Born–Oppenheimer dynamics in highly excited molecular ions. Nature Physics [Internet]. 2012 ;8(3):232 - 237. Available from: http://www.nature.com/doifinder/10.1038/nphys2211
Zhou X, Lock RM, Wagner NL, Li W, Kapteyn HC, Murnane MM. Elliptically Polarized High-Order Harmonic Emission from Molecules in Linearly Polarized Laser Fields. Physical Review Letters. 2009 ;102(7).
Zhou X, Li H, Waugh JA, Parham S, Kim H-S, Sears JA, Gomes A, Kee H-Y, Kim Y-J, Dessau DS. Angle-resolved photoemission study of the Kitaev candidate. Physical Review B [Internet]. 2016 ;94(16):161106. Available from: http://link.aps.org/doi/10.1103/PhysRevB.94.161106
Zhou J, Huang C-P, Murnane MM, Kapteyn HC. Amplification of 26-fs, 2-TW pulses near the gain-narrowing limit in Ti:sapphire. Optics Letters. 1995 ;20:64.
Zhou X, Kapteyn HC, Murnane MM. MHz-rate white light generation using a novel positive-dispersion cavity-dumped Ti: sapphire laser. In: Corkum PB, Jonas DM, Miller RJD, Weiner AM Ultrafast Phenomena XV. Vol. 88. Ultrafast Phenomena XV. Berlin, Heidelberg: Springer Berlin Heidelberg; 2007. pp. 104 - 106.
Zhou X, Liu Q, Waugh JA, Li H, Nummy T, Zhang X, Zhu X, Cao G, Zunger A, Dessau DS. Predicted electronic markers for polytypes of LaOBiS2 examined via angle-resolved photoemission spectroscopy. Physical Review B [Internet]. 2017 ;95(7):075118. Available from: http://link.aps.org/doi/10.1103/PhysRevB.95.075118
Zhou H-L, Whitten BL, Trail WK, Morrison M, MacAdam KB, Bartschat K, Norcross DW. Low-energy electron collisions with sodium: Scattering of spin-polarized electrons. Physical Review A. 1995 ;52(2):1152 - 1177.
Zhou F, Rosenberg L. Low-frequency expansions for laser-assisted collisions. Physical Review A [Internet]. 1991 ;43(3):1336 - 1344. Available from: http://link.aps.org/doi/10.1103/PhysRevA.43.1336
Zhou X. High-Order Harmonic Spectroscopy of Molecular Structure and Dynamics.; 2009. (5.47 MB)
Zhou G, Bintz L, Anderson DZ. Fiber-optic acoustic Fourier transducer for audio sound processing. Applied Optics. 1992 ;31:1740.
Zhou H, Norcross DW. Improved calculation of the quadratic Stark effect in the 6P3/2 state of Cs. Physical Review A. 1989 ;40(9):5048 - 5051.
Zhou X, Ranitovic P, Hogle CW, Eland JHD, Kapteyn HC, Murnane MM. Probing and controlling non-Born–Oppenheimer dynamics in highly excited molecular ions. Nature Physics. 2012 ;8:232 - 237.
Zhou H-L, Norcross DW, Whitten BL. High-precision calculations of cross sections for low energy electron scattering by ground- and excited-state of sodium. In: Teubner PJO, Weigold E Correlations and Polarization in Electronic and Atomic Collisions and (e, 2e) Reactions, p. 39–48. Correlations and Polarization in Electronic and Atomic Collisions and (e, 2e) Reactions, p. 39–48. Flinders University, Adelaide, Australia: Institute of Physics; 1992. (503.12 KB)
Zhou X, Lock RM, Li W, Wagner NL, Murnane MM, Kapteyn HC. Molecular recollision interferometry in high harmonic generation. Physical Review Letters. 2008 ;100:073902.
Zhou G, Anderson DZ. Photorefractive delay line for the visualization and processing of time-dependent signals. Optics Letters. 1993 ;18:167.
Zhou H, Whitten BL, Snitchler G, Norcross DW, Mitroy J. Spin-dependent electron-impact excitation of sodium. Physical Review A. 1990 ;42(7):3907 - 3912.
Zhou G, Anderson DZ. Acoustic signal recognition with a photorefractive time-delay neural network. Optics Letters. 1994 ;19:655.
Zhu M, Hall JL. Precise wavelength measurement of tunable lasers. In: Dunning FB, Hulet RG, Lucatorto TB, De Graef M Electromagnetic Radiation: Atomic, Molecular, and Optical Physics: Electromagnetic Radiation. Vol. 29, Part 3 of Experimental Methods in the Physical Sciences. Electromagnetic Radiation: Atomic, Molecular, and Optical Physics: Electromagnetic Radiation. Academic Press; 1997. pp. 311–341. Available from: http://books.google.com/books?id=FV4Y39AGYuYC&pg=PA311&lpg=PA311&dq=Precise+wavelength+measurement+of+tunable+lasers&source=bl&ots=P_UNdYQU3s&sig=b08gbFUNnJ006mnPYITY-aVG4ec&hl=en&sa=X&ei=cYubUZvLPO-yygHD1YCgDA&ved=0CGkQ6AEwBQ#v=onepage&q=Precise%20wavele
Zhu X, Farrer RA, Gershgoren EH, Kapteyn HC, Fourkas JT. Mode-Selective Optical Kerr Effect Spectroscopy. The Journal of Physical Chemistry B. 2004 ;108(11):3384 - 3386.
Zhu M, Hall JL. Short and long term stability of optical oscillators. In: Proceedings, IEEE Frequency Control Symposium, 1992. Vol. 46. Proceedings, IEEE Frequency Control Symposium, 1992. Hershey, PA, USA: IEEE; 1992. pp. 44–55.
Zhu B. Many-body physics in long-range interacting quantum systems. Boulder, CO: University of Colorado; 2017 p. 169. (13.97 MB)
Zhu M, Hall JL. Frequency stabilization of tunable lasers. In: Electromagnetic Radiation: Atomic, Molecular, and Optical Physics: Electromagnetic Radiation. Vol. 29, Part 3 of Experimental Methods in the Physical Sciences. Electromagnetic Radiation: Atomic, Molecular, and Optical Physics: Electromagnetic Radiation. Academic Press; 1997. pp. 102–134. Available from: http://books.google.com/books?id=FV4Y39AGYuYC&pg=PA311&lpg=PA311&dq=Precise+wavelength+measurement+of+tunable+lasers&source=bl&ots=P_UNdYQU3s&sig=b08gbFUNnJ006mnPYITY-aVG4ec&hl=en&sa=X&ei=cYubUZvLPO-yygHD1YCgDA&ved=0CGkQ6AEwBQ#v=snippet&q=Frequency%20stab
Zhu B, Quéméner G, Rey AM, Holland MJ. Evaporative cooling of reactive polar molecules confined in a two-dimensional geometry. Physical Review A [Internet]. 2013 ;88(6):063405. Available from: http://link.aps.org/doi/10.1103/PhysRevA.88.063405
Zhu B, Cooper J, Ye J, Rey AM. Light scattering from dense cold atomic media. Physical Review A [Internet]. 2016 ;94(2):023612. Available from: http://link.aps.org/doi/10.1103/PhysRevA.94.023612
Zhu M, Hall JL. Stabilization of optical phase/frequency of a laser system: application to a commercial dye laser with an external stabilizer. Journal of the Optical Society of America B. 1993 ;10(5):802.
Zhu B, Gadway B, Foss-Feig M, J. S, Wall ML, Hazzard KRA, Yan B, Moses SA, Covey JP, Jin DS, et al. Suppressing the Loss of Ultracold Molecules Via the Continuous Quantum Zeno Effect. Physical Review Letters [Internet]. 2014 ;112(7):070404. Available from: http://link.aps.org/doi/10.1103/PhysRevLett.112.070404
Zhu M, Oates CW, Hall JL. Continuous high-flux monovelocity atomic beam based on a broadband laser-cooling technique. Physical Review Letters. 1991 ;67(1):46 - 49.
Zhu B, Schachenmayer J, Xu M, Herrera F, Restrepo JG, Holland MJ, Rey AM. Synchronization of interacting quantum dipoles. New Journal of Physics [Internet]. 2015 ;17(8):083063. Available from: http://stacks.iop.org/1367-2630/17/i=8/a=083063?key=crossref.dc670debcecb1e61a3efb02d6263e66f
Zhu M, Oates CW, Hall JL. Improved hyperfine measurements of the Na 5p excited state through frequency-controlled Dopplerless spectroscopy in a Zeeman magneto-optic laser trap. Optics Letters. 1993 ;18(14):1186.
Zhuang W, Mukame S, Cundiff ST, Lorenz VO, Carter SG, Chen Z. Three-Pulse Echo Peak Shift Spectroscopy of Disordered Semiconductor Quantum Wells and Dense Atomic Vapors. In: Corkum PB, Silvestri S, Nelson KA, Riedle E, Schoenlein RW Springer Series in Chemical Physics Ultrafast Phenomena XVI. Vol. 92. Springer Series in Chemical Physics Ultrafast Phenomena XVI. Berlin, Heidelberg: Springer Berlin Heidelberg; 2009. pp. 253 - 255.
Ziebarth K. On the Upper Mass Limit for Main-Sequence Stars. The Astrophysical Journal [Internet]. 1970 ;162:947. Available from: http://articles.adsabs.harvard.edu/full/1970ApJ..162.947Z
Ziemkiewicz MP, Zutz A, Nesbitt DJ. Inelastic Scattering of Radicals at the Gas–Ionic Liquid Interface: Probing Surface Dynamics of BMIM–Cl, BMIM–BF 4, and BMIM–Tf 2N by Rovibronic Scattering of NO [2 Π 1/2 (0.5)]. The Journal of Physical Chemistry C [Internet]. 2012 ;116(27):14284 - 14294. Available from: http://pubs.acs.org/doi/abs/10.1021/jp212336a
Ziemkiewicz MP, Pluetzer C, Wojcik M, Loreau J, van der Avoird A, Nesbitt DJ. Near infrared overtone (v OH = 2 ← 0) spectroscopy of Ne–H2O clusters. The Journal of Chemical Physics [Internet]. 2017 ;146(10):104204. Available from: http://aip.scitation.org/doi/10.1063/1.4977061
Ziemkiewicz MP. Molecular and Electronic Dynamics in Van Der Waals Cluster Spectroscopy, Hydrogen Abstraction Reactions, and Inelastic Collisions at Liquid Surfaces. Boulder: University of Colorado Boulder; 2012 p. 69. (2.03 MB)
Ziemkiewicz MP, Pluetzer C, Loreau J, van der Avoird A, Nesbitt DJ. Nuclear spin/parity dependent spectroscopy and predissociation dynamics in vOH = 2 ← 0 overtone excited Ne–H2O clusters: Theory and experiment. The Journal of Chemical Physics [Internet]. 2017 ;147(214304). Available from: http://aip.scitation.org/doi/10.1063/1.5001335
Ziemkiewicz MP, Nesbitt DJ. Nonadiabatic reactive scattering in atom+triatom systems: Nascent rovibronic distributions in F+H2O→HF+OH. The Journal of Chemical Physics. 2009 ;131:054309.
Ziemkiewicz MP, Wojcik M, Nesbitt DJ. Direct evidence for nonadiabatic dynamics in atom+polyatom reactions: Crossed-jet laser studies of F+D2O→DF+OD. The Journal of Chemical Physics. 2005 ;123(22):224307.

Pages

JILA follows the six University nodes' policies for ensuring harassment-free environments. For more detailed information regarding the University of Colorado policies, please read the Discrimination and Harassment Policy and Procedures.