Your search keyword '"Zaïr, A."' showing total 462 results

451. Perspectives for the Generation of Intense Isolated Attosecond Pulses at Ultra-high Laser Intensities

Author

Pérez-Hernández, J. A., Roso, L., Adibi, Ali, Series editor, Asakura, Toshimitsu, Series editor, Rhodes, William T., Editor-in-chief, Hänsch, Theodor W., Series editor, Kamiya, Takeshi, Series editor, Krausz, Ferenc, Series editor, Monemar, Bo A.J., Series editor, Venghaus, Herbert, Series editor, Weber, Horst, Series editor, Weinfurter, Harald, Series editor, Plaja, Luis, editor, Torres, Ricardo, editor, and Zaïr, Amelle, editor

Published

2013

452. Theory of Attosecond Pulse Generation

Author

Gaarde, Mette B., Schafer, Kenneth J., Adibi, Ali, Series editor, Asakura, Toshimitsu, Series editor, Rhodes, William T., Editor-in-chief, Hänsch, Theodor W., Series editor, Kamiya, Takeshi, Series editor, Krausz, Ferenc, Series editor, Monemar, Bo A.J., Series editor, Venghaus, Herbert, Series editor, Weber, Horst, Series editor, Weinfurter, Harald, Series editor, Plaja, Luis, editor, Torres, Ricardo, editor, and Zaïr, Amelle, editor

Published

2013

453. Attosecond Science

Author

Corkum, P. B., Adibi, Ali, Series editor, Asakura, Toshimitsu, Series editor, Rhodes, William T., Editor-in-chief, Hänsch, Theodor W., Series editor, Kamiya, Takeshi, Series editor, Krausz, Ferenc, Series editor, Monemar, Bo A.J., Series editor, Venghaus, Herbert, Series editor, Weber, Horst, Series editor, Weinfurter, Harald, Series editor, Plaja, Luis, editor, Torres, Ricardo, editor, and Zaïr, Amelle, editor

Published

2013

454. 1 - Embryology of the Spine

Author

Fishkin, Zair and Bendo, John A.

455. The clastogenicity of 4NQO is cell-type dependent and linked to cytotoxicity, length of exposure and p53 proficiency.

Author

Brüsehafer, Katja, Manshian, Bella B., Doherty, Ann T., Zaïr, Zoulikha M., Johnson, George E., Doak, Shareen H., and Jenkins, Gareth J. S.

Subjects

*CELL-mediated cytotoxicity, *P53 antioncogene, *NITROQUINOLINE oxide, *GENETIC toxicology, *DNA adducts, *CARCINOGENICITY

Abstract

4-Nitroquinoline 1-oxide (4NQO) is used as a positive control in various genotoxicity assays because of its known mutagenic and carcinogenic properties. The chemical is converted into 4-hydroxyaminoquinoline 1-oxide and gives rise to three main DNA adducts, N-(deoxyguanosin-8-yl)-4AQO, 3-(desoxyguanosin-N2-yl)-4AQO and 3-(deoxyadenosin-N6-yl)-4AQO. This study was designed to assess the shape of the dose-response curve at low concentrations of 4NQO in three human lymphoblastoid cell lines, MCL -5, AHH-1 and TK6 as well as the mouse lymphoma L5178Y cell line in vitro. Chromosomal damage was investigated using the in vitro micronucleus assay, while further gene mutation and DNA damage studies were carried out using the hypoxanthine-guanine phosphoribosyltransferase forward mutation and comet assays. 4NQO showed little to no significant increases in micronucleus induction in the human lymphoblastoid cell lines, even up to 55 ± 5% toxicity. A dose-response relationship could only be observed in the mouse lymphoma cell line L5178Y after 4NQO treatment, even at concentrations with no reduction in cell viability. Further significant increases in gene mutation and DNA damage induction were observed. Hence, 4NQO is a more effective point mutagen than clastogen, and its suitability as a positive control for genotoxicity testing has to be evaluated for every individual assay. [ABSTRACT FROM AUTHOR]

Published

2016

456. Beyond Carbon K-Edge Harmonic Emission Using a Spatial and Temporal Synthesized Laser Field.

Author

Pérez-Hernández, J. A., Ciappina, M. F., Lewenstein, M., Roso, L., and Zaïr, A.

Subjects

*SEMICLASSICAL limits, *TIME-resolved spectroscopy, *HARMONIC analysis (Mathematics), *MATHEMATICAL models, *HELIUM

Abstract

We present numerical simulations of high-order harmonic generation in helium using a temporally synthesized and spatially nonhomogeneous strong laser field. The combination of temporal and spatial laser field synthesis results in a dramatic cutoff extension far beyond the usual semiclassical limit. Our predictions are based on the convergence of three complementary approaches: resolution of the three dimensional time dependent Schrödinger equation, time-frequency analysis of the resulting dipole moment, and classical trajectory extraction. A laser field synthesized both spatially and temporally has been proven capable of generating coherent extreme ultraviolet photons beyond the carbon K edge, an energy region of high interest as it can be used to initiate inner-shell dynamics and study time-resolved intramolecular attosecond spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2013

457. Contributors

Author

Abbed, Khalid M., Abbott, Kathleen, Amankulor, Nduka, Angeles, Carmina F., Araghi, Ali, Arakal, Rajesh G., Armin, Sean, Asgarzadie, Farbod, Bambang, Darwono A., Sauri Barraza, Jose Carlos, Bendo, John A., Benzel, Edward C., Berkley, Jason A., Bertagnoli, Rudolf, Boachie-Adjei, Obeneba, Breen, Alan C., Brown, Courtney W., Cai, Chunbo, Carrier, Charles S., Cesarz, Thomas J., Cheng, Boyle C., Cheung, Kenneth M.C., Coutinho, Etevaldo, Davis, Reginald J., Deitz, Adam K., Dhaliwal, Perry, Dickerman, Rob D., Essig, David A., Fann, Alice, Fehlings, Michael, Ferrara, Lisa, Fessler, Richard G., Fishkin, Zair, Folta, Amy, Gregory Fu, Kai-Ming, Fu, Shu Man, Gandhi, Anand A., Gardner, Elizabeth, Garfin, Steven R., Garg, Hitesh, Gart, Avrom, Ghostine, Samer, Gladnick, Brian P., Gokaslan, Ziya L., Goldstein, Jeffrey A., Gottfried, Oren N., Gould, Grahame C.D., Grauer, Jonathan N., Guyer, Richard D., Harris, Eric B., Harrod, Christopher C., Heini, Paul F., Hermenau, Shawn F., Hochschuler, Stephen H., Hoh, Daniel J., Huang, Wei, Hurlbert, R. John, Johnson, J. Patrick, Karppinen, Jaro, Keaveny, Tony M., Khoo, Larry T., Kim, Choll W., Kim, Terrence, Kim, Woo-Kyung, Lane, Joseph M., Lee, Jared T., Lieberson, Robert E., Loutzenhiser, Lonnie E., Mani, Malary, Marawar, Satyajit, Marchetti, Jason, Mayer, H. Michael, Mehta, Vivek Arjun, Mellor, Fiona E., Meredith, Christopher, Miele, Vincent J., Miletic, Jack, Miller, Christopher P., Sze Mok, Florence Pik, Morreale, Joseph M., Murphy, Kieran, Ninivaggi, Frank John, Ohnmeiss, Donna D., Okafor, Chukwuka, Olan, Wayne J., Oliveira, Leonardo, Panjabi, Manohar, Park, Jon, Parker, Scott L., Patel, Rajeev K., Pflugmacher, Robert, Phillips, Frank M., Pimenta, Luiz, Poon, Colin S., Prewett, Ann, Raiszadeh, Kamshad, Rajadhyaksha, Amar D., Rajneesh, Kiran F., Ramachandran, Ravi, Rosales, Luis M., Sabet, Hajeer, Sachs, Barton L., Saldua, Nelson S., Samartzis, Dino, Samudrala, Srinath, Sandhu, Harvinder S., Schultz, Karl D., Jr., Scibelli, Stephen, Shaffrey, Christopher I., Shellock, Jessica, Shirzadi, Ali, Simon, Josef B., Singh, Kern, Smith, Zachary A., Speach, David, Subbaiah, Sathish, Teyhen, Deydre Smyth, Sze, Gordon, Thaiyananthan, G. Ty, Thoman, William, Truumees, Eeric, Unnanuntana, Aasis, Vaccaro, Alexander R., Vadera, Sumeet, Vaynman, Shoshanna, Wang, Michael Y., Whang, Peter G., White, Andrew P., Witham, Timothy F., Wood, Kirkham B., Woodard, Eric J., Woods, Kamal R.M., Wong, Kris Wai-ning, Yang, Huilin, Yang, Weibin, Yeung, Anthony T., Yeung, Christopher A., Yuan, Philip S., Yue, James Joseph, Zenooz, Navid, Zheng, Yinggang, Zhou, Linqiu, and Zou, Dewei

458. Génération d’harmoniques d’ordres élevés avec des impulsions femtosecondes de haute énergie

Author

HORT, Ondřej, Constant, Eric, Chériaux, Gilles, Sola, Iñigo, Zaïr, Amelle, Tamarat, Philippe, Carré, Bertrand, Sebban, Stéphane, Eric Constant, Philippe Tamarat [Président], Bertrand Carré [Rapporteur], Stéphane Sebban [Rapporteur], Gilles Chériaux, Iñigo Sola, and Amelle Zaïr

Subjects

Lasers femtosecondes, Impulsions attosecondes, Post-compression par ionisation, Génération d’harmoniques d’ordres élevés, Structures XUV spatiales et spectrales

459. L'importance de la réponse inflammatoire au cours de la maladie de Horton est corrélée à un faible risque de thromboses encéphaliques

Author

Amoura, Zair

Published

1998

460. Symphony on strong field approximation.

Author

Amini K, Biegert J, Calegari F, Chacón A, Ciappina MF, Dauphin A, Efimov DK, Figueira de Morisson Faria C, Giergiel K, Gniewek P, Landsman AS, Lesiuk M, Mandrysz M, Maxwell AS, Moszyński R, Ortmann L, Antonio Pérez-Hernández J, Picón A, Pisanty E, Prauzner-Bechcicki J, Sacha K, Suárez N, Zaïr A, Zakrzewski J, and Lewenstein M

Abstract

This paper has been prepared by the Symphony collaboration (University of Warsaw, Uniwersytet Jagielloński, DESY/CNR and ICFO) on the occasion of the 25th anniversary of the 'simple man's models' which underlie most of the phenomena that occur when intense ultrashort laser pulses interact with matter. The phenomena in question include high-harmonic generation (HHG), above-threshold ionization (ATI), and non-sequential multielectron ionization (NSMI). 'Simple man's models' provide both an intuitive basis for understanding the numerical solutions of the time-dependent Schrödinger equation and the motivation for the powerful analytic approximations generally known as the strong field approximation (SFA). In this paper we first review the SFA in the form developed by us in the last 25 years. In this approach the SFA is a method to solve the TDSE, in which the non-perturbative interactions are described by including continuum-continuum interactions in a systematic perturbation-like theory. In this review we focus on recent applications of the SFA to HHG, ATI and NSMI from multi-electron atoms and from multi-atom molecules. The main novel part of the presented theory concerns generalizations of the SFA to: (i) time-dependent treatment of two-electron atoms, allowing for studies of an interplay between electron impact ionization and resonant excitation with subsequent ionization; (ii) time-dependent treatment in the single active electron approximation of 'large' molecules and targets which are themselves undergoing dynamics during the HHG or ATI processes. In particular, we formulate the general expressions for the case of arbitrary molecules, combining input from quantum chemistry and quantum dynamics. We formulate also theory of time-dependent separable molecular potentials to model analytically the dynamics of realistic electronic wave packets for molecules in strong laser fields. We dedicate this work to the memory of Bertrand Carré, who passed away in March 2018 at the age of 60.

Published

2019

461. Attosecond physics at the nanoscale.

Author

Ciappina MF, Pérez-Hernández JA, Landsman AS, Okell WA, Zherebtsov S, Förg B, Schötz J, Seiffert L, Fennel T, Shaaran T, Zimmermann T, Chacón A, Guichard R, Zaïr A, Tisch JW, Marangos JP, Witting T, Braun A, Maier SA, Roso L, Krüger M, Hommelhoff P, Kling MF, Krausz F, and Lewenstein M

Abstract

Recently two emerging areas of research, attosecond and nanoscale physics, have started to come together. Attosecond physics deals with phenomena occurring when ultrashort laser pulses, with duration on the femto- and sub-femtosecond time scales, interact with atoms, molecules or solids. The laser-induced electron dynamics occurs natively on a timescale down to a few hundred or even tens of attoseconds (1 attosecond  =  1 as  =  10 -18 s), which is comparable with the optical field. For comparison, the revolution of an electron on a 1s orbital of a hydrogen atom is  ∼152 as. On the other hand, the second branch involves the manipulation and engineering of mesoscopic systems, such as solids, metals and dielectrics, with nanometric precision. Although nano-engineering is a vast and well-established research field on its own, the merger with intense laser physics is relatively recent. In this report on progress we present a comprehensive experimental and theoretical overview of physics that takes place when short and intense laser pulses interact with nanosystems, such as metallic and dielectric nanostructures. In particular we elucidate how the spatially inhomogeneous laser induced fields at a nanometer scale modify the laser-driven electron dynamics. Consequently, this has important impact on pivotal processes such as above-threshold ionization and high-order harmonic generation. The deep understanding of the coupled dynamics between these spatially inhomogeneous fields and matter configures a promising way to new avenues of research and applications. Thanks to the maturity that attosecond physics has reached, together with the tremendous advance in material engineering and manipulation techniques, the age of atto-nanophysics has begun, but it is in the initial stage. We present thus some of the open questions, challenges and prospects for experimental confirmation of theoretical predictions, as well as experiments aimed at characterizing the induced fields and the unique electron dynamics initiated by them with high temporal and spatial resolution.

Published

2017

462. Enhancement of high harmonics from plasmas using two-color pump and chirp variation of 1 kHz Ti:sapphire laser pulses.

Author

Ganeev RA, Hutchison C, Zaïr A, Witting T, Frank F, Okell WA, Tisch JW, and Marangos JP

Subjects

Color, Equipment Design, Equipment Failure Analysis, Aluminum Oxide chemistry, Lasers, Plasma Gases chemistry, Titanium chemistry

Abstract

We have investigated resonance effects in high-order harmonic generation (HHG) within laser-produced plasmas. We demonstrate a significantly improved harmonic yield by using two-color pump-induced enhancement and a 1 kHz pulse repetition rate. Together with an increased HHG output, the even harmonics in the cutoff region were enhanced with respect to odd harmonics. We report the observation of a resonance-induced growth in intensity of 20th harmonic in silver plasma (2×), 26th harmonic in vanadium plasma (4×), and 28th harmonic in chromium plasma (5×).

Published

2012