61. Magyar Elektronikus Könyvtár r¡sok a fizika, atomfizika t©mak¶r¶kben. (Physics, atomic physics.) http://www.mek.iif.hu/porta/szint/termesz/fizika/

kepwin=window.open('/nyitas.html','masik', 'scrollbars=no,status=no,width=430,height=155,resizable=yes'); Fizika, atomfizika Physics, atomic physics > Csillagászat, ûrkutatás Astronomy, space research > MEK "virtuális" Fizika MEK "virtual" Physics A hálózat használata a fizika területén A térbeli hallás ... Világítástechnika

62. Teaching Resources¡VPhysics Images (atomic Physics) atomic physics Set 1. Alpha decay, Beta decay, Binding energies of nuclei, Carbon atom, Chain reaction, Transition of electron, Energy levels. http://www.hk-phy.org/resources/images/atomic01/atomic_e.html

writeNaviUpButtonAC("image") (Please read the on the main page) Atomic Physics Set 1 Alpha decay Beta decay Binding energies of nuclei ... Fig. 2

63. What Is The Difference Between Atomic Physics And Nuclear Physics? Question What is the difference between atomic physics and nuclear physics? Asked by Kelley D. Burroughs Answer atomic physics http://www.physlink.com/Education/AskExperts/ae549.cfm

Not a member yet? Get Free Membership Username: Password: Remember me Forgot your login? Ask the Experts Physics ... Become a Sponsor Question What is the difference between atomic physics and nuclear physics? Asked by: Kelley D. Burroughs Answer Atomic physics is mainly concerned with the electrons orbiting the nucleus of an atom. In this regime the Coulomb interaction dominates and phenomena can be explained by quantum electrodynamics (QED). Answered by: Pete Karpius, Physics Grad Student, UNH, Durham go to the top Advertisement: '1995-'2004 PhysLink.com

64. Atom.snu.ac.kr/ ICAP 2004 XIX INTERNATIONAL CONFERENCE ON atomic physics - Translate this page http://atom.snu.ac.kr/

65. 2001 GRC On ATOMIC PHYSICS atomic physics WILLIAMS COLLEGE WILLIAMSTOWN, MA JUNE 1722, 2001. Steve THURSDAY EVENING, Applications of Lasers in atomic physics. M http://www.grc.uri.edu/programs/2001/atomic.htm

ATOMIC PHYSICS WILLIAMS COLLEGE WILLIAMSTOWN, MA JUNE 17-22, 2001 Steve Rolston , Chair Ron Walsworth , Vice-Chair SUNDAY EVENING Quantum Information I L. Orozco - SUNY Stony Brook - Discussion Leader D. Wineland - NIST "Deterministic entanglement, quantum measurement, and fighting the evil decoherence of trapped atomic ions" P. Jessen - Univ. of Arizona "Quantum control and quantum logic in optical lattices" MONDAY MORNING Tests of Fundamental Symmetries R. Walsworth - Harvard-Smithsonian - Discussion Leader A. Kostelecky - Indiana Univ. "Lorentz and CPT violation: theory and prospects" L. Hunter - Amherst College "Lead oxide and the electron edm" M. Romalis - Univ. of Washington "Search for new sources of CP violation using 199Hg and liquid 129Xe" MONDAY EVENING Ultrafast Phenomena B. Walker - Univ. of Delaware - Discussion Leader I. Walmsley - Univ. of Rochester "Ultrafast quantum control for quantum technologies" P. Corkum - NRC Canada "Attosecond science" TUESDAY MORNING Quantum Information II I. Deutsch - Univ. of New Mexico - Discussion Leader H. Mabuchi

66. 2003 GRC On Atomic Physics atomic physics June 1520, 2003 Tilton School Tilton, NH. 600 pm, Dinner. 730 pm - 930 pm, atomic physics Overlap with Condensed Matter Physics. http://www.grc.uri.edu/programs/2003/atomic.htm

Atomic Physics June 15-20, 2003 Tilton School Tilton, NH Chair: Ronald L Walsworth Vice Chair: Eric Cornell Sunday, June 15 2:00 pm - 9:00 pm Arrival and check-in 4:00 pm - 6:00 pm Reception 6:00 pm Dinner Welcome and opening remarks by Chair 7:30 pm - 9:30 pm Degenerate Fermi Systems 7:30 pm - 7:50 pm Discussion Leader: Eddy Timmermans (Los Alamos National Laboratory) 7:50 pm - 8:40 pm Deborah Jin (JILA) "Creation of Molecules in a Fermi Gas of Atoms" 8:40 pm - 9:30 pm John Thomas (Duke) "Universal dynamics in a strongly-interacting Fermi gas" Monday, June 16 7:30 am - 8:30 am Breakfast 8:30 am Group Photo 9:00 am - 12:30 pm New Developments in Cold Atoms and Molecules 9:00 am - 9:40 am Discussion Leader: John Doyle (Harvard) 9:40 am - 10:30 am John Bohn (JILA) "When a body meets a body: collisions in an ultracold molecular gas" 10:30 am - 10:50 am Coffee Break 10:50 am - 11:40 am Carl Wieman (Colorado) "Ultracold molecules, pseudomolecules, and BECs near a Feshbach resonance" 11:40 am - 12:30 am Alain Aspect (Orsay) "Coherence and thermodynamics properties of non-ideal condensates" 12:30 pm Lunch 1:30 pm - 4:00 pm Free Time 4:00 pm - 6:00 pm Poster Session I 6:00 pm Dinner 7:30 pm - 9:30 pm Atomic Physics Overlap with Condensed Matter Physics 7:30 pm - 7:50 pm Discussion Leader: Jook Walraven (FOM Institute AMOLF) 7:50 pm - 8:40 pm Heather Lewandowski (JILA) "Coherence and dynamics of finite temperature Bose-Einstein condensates" 8:40 pm - 9:30 pm Steve Girvin (Yale) "Condensed Matter Meets AMO: Excitations in Optical Lattices and Strong Cavity QED in Electrical Circuits"

67. Atomic Physics Authors/titles Recent Submissions xxx.lanl.gov/archive/atomph/ More results from xxx.lanl.gov RIKEN Atom Phys Lab TOPRIKEN atomic physics Laboratory. 1999 at RIKEN) Program in PDF. atomic physics Laboratory Personnel. Related Links. UT Komaba atomic physics Group http://xxx.lanl.gov/list/physics.atom-ph/recent

Atomic Physics Authors and titles for recent submissions Fri, 4 Jun 2004 Wed, 2 Jun 2004 Tue, 1 Jun 2004 Thu, 27 May 2004 ... Wed, 26 May 2004 Fri, 4 Jun 2004 physics/0406006 abs ps pdf other Title: Spectroscopic LSJ notation for atomic levels obtained from relativistic calculations Authors: G. Gaigalas T. Zalandauskas S. Fritzsche Subj-class: Atomic Physics; Computational Physics Journal-ref: Comput. Phys. Comm. 157 (2004) 239-253 Wed, 2 Jun 2004 physics/0406002 abs ps pdf other Title: Extension of the HF program to partially filled f-subshells Authors: G. Gaigalas C. Froese Fischer Subj-class: Atomic Physics; Computational Physics Journal-ref: Comput. Phys. Commun. 98 (1996) 255-264 Tue, 1 Jun 2004 physics/0405156 abs ps pdf other Title: Maple procedures for the coupling of angular momenta. VI. LS-jj transformations Authors: G. Gaigalas S. Fritzsche Subj-class: Atomic Physics; Computational Physics Journal-ref: Comput. Phys. Comm. 149 (2002) 39-60 Thu, 27 May 2004 physics/0405137 abs ps pdf other Title: Non-sequential double ionization of molecules Authors: Jakub S. Prauzner-Bechcicki

68. Section Of Atomic Physics http://www.atomki.hu/atomki/AtomPhys/

Welcome to the Electron Spectroscopy Group of the Institute of Nuclear Research of the Hyngarian Academy of Sciences. This page looks better in a browser that can display frames. Contents Main Contents

69. Welcome - Cyclotron Institute A variety of nuclear research programs on the K500 Superconducting Cyclotron, including nuclear astrophysics, nuclear and atomic physics, exotic beams and radiation effects. Visual tour, brochure, directory, beam schedule, employment, SEE Line, publications, progress reports, virtual library, users home pages, links, and site search. http://cyclotron.tamu.edu/

Current K500 Beam Schedule Cyclotron Institute Brochure Cyclotron Institute ... Safety Manual For questions and/or comments about the design and content of this site send email to bch5143@comp.tamu.edu Cyclotron Institute MS #3366 College Station TX 77843-3366 Phone: 979-845-1411 Fax: 979-845-1899 REU Summer 2004 Program Information Download the Facility Upgrade White Paper Monday, April 19, 2004 12:20 PM The K500 Beam Schedule for April - May 2004 is now available. View in html format or download the schedule as a pdf file Monday, February 9, 2004 9:46 AM A new listing for a postdoctoral position has been added to the employment opportunities section Tuesday, February 3, 2004 1:41 PM The K500 Beam Schedule for February-April 2004 is now available. View in

70. Atomic Physics Home page Back Forward atomic physics. atomic physics research in the institute embraces experimental and theoretical investigations of ionatom collisions. http://www.atomki.hu/atomph.html

Atomic Physics Atomic physics research in the institute embraces experimental and theoretical investigations of ion-atom collisions. The aim is to study the mechanism of these processes and the electron structure of the collision partners. Energetic atomic collisions are very good probes of internal atomic structure because, unlike chemical processes, which disturb only the outer atomic shells, these can make changes in the innermost parts of the atoms as well. In these collisions one or more of the atomic electrons can get free (single or multiple ionization), one or several electrons can be transferred from one collision partner to the other, one or both of the collision partners can become excited, and a combination of these elementary processes can also take place. The excited atoms and ions then get spontaneously de-excited by emitting X-ray photons or additional electrons from their electron shells (Auger electrons). Although the interaction governing atomic phenomena the Coulomb force is known exactly, these collision processes are too complicated to be described by an exact theory. Most of the experimental data can be understood, however, in terms of models containing simplifying assumptions. One can thus suppose that the electrons move in an average field created by the nucleus and the other electrons, i.e. omit the correlations between individual electrons. Another common assumption is that throughout the collision each electron is only affected by one of the nuclei, i.e. the two-center effects are neglected. Furthermore, the interaction of the partners after the collision (post-collision interaction) is also often disregarded. These simplifications are contained in the conventional quantum mechanical as well as semiclassical collision models. Needless to say, the exciting experiments are those in which these simple assumptions break down, and the aim of our theoretical work is to take into account some of these specific effects.

71. UW Atomic Collisions Web Site before us that from these honored dead we take increased devotion to that cause for which they gave the last full measure of devotion- atomic physics. http://raptor.physics.wisc.edu/

University of Wisconsin Atomic Collisions Group The world will little note nor long remember what we say here, but it can never forget what they did here. It is for us the living rather to be dedicated here to the unfinished work which they who fought here have thus far so nobly advanced. It is rather for us to be here dedicated to the great task remaining before us - that from these honored dead we take increased devotion to that cause for which they gave the last full measure of devotion- atomic physics Abraham Lincoln , on the dedication of this web site Welcome to C.C. Lin's "too cool for a web site" Web Site. You have now stumbled onto the opportunity to learn all about what goes on in the basement of Sterling Hall. You can find out... Who are the foot soldiers in the never-ending march of progress? Where are the frontiers of human knowledge? What weapons are unleashed against the forces of ignorance and superstition? What is our last, best hope for peace? Learn Overview An overview of the type of atomic physics research our group works on. A Primer on Electron-Atom Collisions A Lecture based on C.C. Lin's 1996 Will Allis prize talk

72. Organizations Of The NASB Department Of Physics, Mathematics And Postgraduate Studies in the range of theoretical physics; optics; laser physics; physics of atomic nucleus. Top. THE INSTITUTE OF MOLECULAR AND atomic physics. http://www.ac.by/organizations/institutes/inofmi.html

73. History 181B - Class 22 Class 22 (3/12/03) atomic physics (Class 21 was the midterm exam.). Outline, What is atomic physics? Why do atoms belong to physics anyways? http://history.berkeley.edu/faculty/Carson/spring03/181B/class22.html

History 181B: Modern Physics Class 22 (3/12/03) Atomic physics (Class 21 was the midterm exam.) Navigation Home Schedule Next Class > Outline What is atomic physics? Why do atoms belong to physics anyways? Rethinking inward bound Atomic models Empirical starting points: Constitution and construction Early proposals Nagaoka's (1904) Thomson's (1904) Rutherford's (1911) A comment: The model-making tradition Bohr's model (1913) How Bohr came to Rutherford A quantum theory of atomic structure What are the experimental consequences? Names and terms Primary Secondary Hantaro Nagaoka (1865-1950) J. J. Thomson (1856-1940), NP 1906 Ernest Rutherford (1871-1937), NP Chemistry 1908 Niels Bohr (1885-1962), NP 1922 "On the Constitution of Atoms and Molecules" (1913) nonclassical stability condition Assignment No reading assignment!

74. Atomic Physics At The TSR D. Schwalm) atomic physics Group at the Heidelberg HeavyIon Test Storage Ring (TSR). Experimental research in the areas of Atomic http://www.mpi-hd.mpg.de/ato/tsrexp.html

Heavy Ion Physics Group (Prof. D. Schwalm) Atomic Physics Group at the Heidelberg Heavy-Ion Test Storage Ring (TSR) Experimental research in the areas of Atomic and Molecular Physics using Stored and Cooled Ion Beams Research Projects: Group members Publications Seminars Related Links Contact: Prof. Dr. Andreas Wolf Current Research Projects: Atomic Physics: Experimental Test of the Relativistic Time Dilation Factor (Diplomarbeit) Electron collisions and spectroscopy of multicharged ions Spectroscopy of the Positronium Ion (Ps Molecular Physics: (Diplomarbeit) Coulomb Explosion Imaging Dissociative Recombination Cold Electron Beams: A new `ultracold' electron target for the TSR Generation of intense and cold electron beams from GaAs photocathodes Electron Cooling: Electron cooling force measurements Sixth International Conference on Dissociative Recombination: ... 12-16 July 2004, Mosbach, Germany var lm=document.lastModified; document.write("Last modified: "+lm)

75. Stroud Wave Packet Home Page Professor Stroud s research efforts cover a wide range of topics in quantum optics, quantum information theory, atomic physics, and nonlinear optics. http://www.optics.rochester.edu:8080/users/stroud/

Home Publications Presentations Tutorials ... Links This is the homepage of Carlos Stroud 's research group at the University of Rochester, affiliated with the Institute of Optics , the , the Center for Quantum Information , and the Rochester Theory Center Professor Stroud's research efforts cover a wide range of topics in quantum optics, quantum information theory, atomic physics, and nonlinear optics. Current projects include the study of Rydberg atomic electron wave packets; multilevel quantum logic; generation of quantum states of light via electromagnetically induced transparency; and entanglement and teleportation of macroscopic states of matter. Please click on the image above or one of the links on the left to begin your exploration of our site. Web page maintained by Alberto Marino ( Click Here to Email Last modified 13 February 2004

76. Department Of Atomic Physics To the bulgarian version. Department of atomic physics. Sofia University Department of atomic physics 5, James Bourchier Blvd. 1164 Sofia Bulgaria. http://www.phys.uni-sofia.bg/eng/departments/atomic_physics/index_su_site.html

Department of Atomic Physics Sofia University Department of Atomic Physics 5, James Bourchier Blvd. 1164 Sofia Bulgaria Monte Carlo Group Nuclear Electronics Group Particle Physics Group University of Sofia Nuclear Spectroscopy Group ... Medical Physics hits for Faculty of Physics site

77. Terascale Atomic Physics http://www.physics.auburn.edu/~scidac/

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78. Atomic Physics With Supercomputers atomic physics with Supercomputers. Talk presented at the Physics Colloquium Louisville University, Kentucky, USA (April 2001). by Darío Mitnik. http://vanadium.rollins.edu/~dario/superatomic/superatomic.html

Atomic Physics with Supercomputers Talk presented at the Physics Colloquium Louisville University, Kentucky, USA (April 2001) by: non-frames version (recommended) frames version (for Explorer only) PowerPoint file

79. Atomic Physics Group TU Dresden Translate this page Seite in Deutsch. highly charged ions, room temperature EBIT, ECR ion source, x-ray spectroscopy, Institute of Nuclear and Particle Physics. http://www.physik.tu-dresden.de/apg/apeindex.html

80. University Of Pittsburgh - Physics & Astronomy Department Experimental Laboratory atomic physics research has been devoted to studies of the collision processes involving ions, electrons, atoms, and molecules. http://www.phyast.pitt.edu/Research/Atomic.htm

For all the questions and comments related to our website please contact the webmaster Group's description from the Graduate Brochure Research Groups - Atomic, Molecular, and Optical Physics Prof. Petek adjusting a Mach-Zehnder interferometer with attosecond resolution Members of the Space and Atmostpheric Physics Group: Manfred A. Biondi Rainer Johnsen Members of Atomic Theory Group: Richard H. Pratt Members of Solid State Group: Rob Coalson Albert P. Heberle Jeremy Levy Hrvoje Petek ... John T. Yates, Jr. Research Videos: Rainer Johnsen Richard H. Pratt Experimental: Laboratory atomic physics research has been devoted to studies of the collision processes involving ions, electrons, atoms, and molecules. These processes are studied by a variety of techniques using lasers, microwaves, optical spectroscopy, particle accelerators, and high-speed particle counting and momentum separators. The atomic processes studied are of interest for astrophysics, plasma physics, laser physics, planetary atmosphere physics, hydrogen fusion, and atmospheric pollution. The physics of planetary atmospheres is studied in a diverse program that has included observations of solar eclipses from jet aircraft, balloon and rocket studies of lightning and the aurora borealis, and airglow spectroscopic studies of the ionosphere from sites around the world. Laboratory studies of a number of these processes, including lightning simulation, have been carried out on campus. Theoretical: Theoretical investigations of the electromagnetic interactions of electrons, ions, atoms, and molecules with each other and with photons are carried out both analytically and numerically. There are research programs concerned with intense radiation fields leading to multiphoton excitation and ionization, with collision theory, with relativistic photon scattering, radiation, and absorption, and with modification of these processes in hot and/or dense plasma environments. These studies have important applications to x-ray laser development, to laser and magnetic fusion, to atmospheric and space physics, and to astrophysics.

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