1. Atomic Physics On The Internet atomic physics on the Internet. Belarus Institute of Molecular and AtomicPhysics of the National Academy of Sciences of Belarus, Minsk. http://plasma-gate.weizmann.ac.il/API.html

Atomic Physics on the Internet See also: Conferences Databases Free Software Linux ... European network on highly charged ion-surface interactions Atomic Servers by Country Argentina Atomic Collisions Division at the Atomic Collisions Group at the Institute of Astronomy and Space Physics Australia Atomic and Molecular Physics Laboratories at the Australian National University Atomic Scattering Theory at The Flinders University , Adelaide, South Australia Laser Atomic Physics Laboratory at Griffith University , Brisbane, South Australia Centre for Atomic, Molecular and Surface Physics at Murdoch University Atomic Physics at the Northern Territory University , Darwin Theoretical Atomic Physics at the University of New South Wales , Sydney Centre for Laser Science at the University of Queensland Atom Research at the University of Western Australia , Nedlands Austria Institut für Experimentalphysik at the University of Innsbruck Atomic and Plasma Physics Belarus Institute of Molecular and Atomic Physics of the National Academy of Sciences of Belarus, Minsk Belgium Beam-Foil Spectroscopy Group at the at the Atomic and Molecular ab initio calculations and Theoretical Atomic Physics at Université Libre de Bruxelles Brazil Atomic and Molecular Physics at the Universidade Federal do Rio de Janeiro Bulgaria Monte Carlo Group at the University of Sofia Canada Atomic, Molecular and Optical Physics

2. Atomic Physics atomic physics JILA is an internationally prominent institute for research and graduate education in atomic physics. The strength of this atomic physics program comes in part from the close collaboration among its several theoretical and http://jilawww.colorado.edu/www/research/atomic.html

Atomic Physics JILA is an internationally prominent institute for research and graduate education in atomic physics. The strength of this atomic physics program comes in part from the close collaboration among its several theoretical and experimental groups. Many of the fundamental problems these groups are working on involve the manipulation and control of ultra-cold atomic vapors with lasers, the theory of ultra-cold atomic collisions in the presence of intense laser light, and the effect of alignment in atomic collisions. Perhaps the most spectacular recent discovery at JILA is the observation of a new state of matter, the Bose-Einstein condensate, sometimes dubbed a "holy grail" in late 20th century atomic physics. The world's first observation of a Bose-Einstein condensate The ability to generate Bose-Einstein condensates on a daily basis now allows, for the first time, the investigation of macroscopic coherence in an atomic vapor. A Bose-Einstein condensate consists of particles with such large de Broglie wavelengths that their wave functions overlap, generating a single quantum state that is delocalized across the entire sample. Thus a condensate of atoms is analogous to the coherent field of photons generated inside a laser. With this analogy in mind, scientists here are investigating the possibility of output-coupling the atoms to construct a continuous beam, or "atom laser." Another area of research made experimentally accessible by Bose-Einstein condensates is atomic collisions at very low temperatures. Since condensates exist only at temperatures on the order of a nanoKelvin, the average atomic velocity within a condensate is incredibly low, typically less than 1 mm per second. Thus it is now possible to experimentally test theoretical models of these ultra-slow collision processes. A related area of strong interest here is the radiative collision between atoms in the presence of a coherent laser field.

3. Welcome Staff Address/Map News Research Projects Progress Reports atomic physics. Welcome to the Division of atomic physics at LundInstitute of Technology (LTH), Lund University, Sweden. The http://www-atom.fysik.lth.se/

Welcome Staff Address/Map News Research ... Local information Atomic Physics, Lund Institute of Technology, P.O. Box 118, SE-221 00 Lund, Sweden Tel: +46 46 222 76 60, Fax: +46 46 222 42 50, Email: atomfysik@fysik.lth.se Atomic Physics Welcome to the Division of Atomic Physics at Lund Institute of Technology (LTH), Lund University, Sweden. The division has a staff of over 60 researchers including guest researchers, teachers and graduate students. The research at the division is mainly based on the use of lasers, ranging from diode lasers to terawatt lasers at the High-Power Laser Facility. Some areas of research are: basic atomic physics including interactions between intense laser-fields and matter and VUV/XUV laser spectroscopy, quantum electronics, quantum optics and solid state spectroscopy, applied molecular spectroscopy, laser applications in medicine and biology, and industrial applications. Head of Division: Prof. Sune Svanberg Division Secretary: Laila Lewin Staff Address and Maps News ... Popular Descriptions (in Swedish) Web manager: Marie.Holmdahl-Svensson@fysik.lth.se

4. Homepage For The Atomic Physics Group The homepage of the atomic physics Group at Göteborg University and Chalmers University of Technology, Göteborg, Sweden http://fy.chalmers.se/f3a

ATOMIC PHYSICS Department of Experimental Physics Phone: +46 31 772 3273 Fax: +46 31 772 3496 Members of the Atomic Physics Group Current Projects: Atomic theory Atomic clusters Negative Ions Optical Tweezers ... Students Section Information about: Open positions for diploma projects and phD studies Courses connected to this group Addresses etc. Information for members of the Atomic Physics Group The URL of this page is http://fy.chalmers.se/f3a Last modified Monday, 21-Jan-2002 by Karin Fritioff, f3aka@fy.chalmers.se

5. Atomic Physics At Princeton University atomic physics at Princeton University Spinpolarized atoms and nuclei, magnetic resonance imaging, Fundamental symmetry tests, http://www.atomic.princeton.edu/

Atomic Physics at Princeton University William Happer Spin-polarized atoms and nuclei, magnetic resonance imaging, hyperfine interactions, surface interactions, optical pumping. Michael Romalis Fundamental symmetry tests, precision measurements, spin-polarized atoms, magnetometers. Atomic physics research overview

6. FOM Institute For Atomic And Molecular Physics [ AMOLF ] Homepage The atomic physics Group at the Department of Applied Mathematics and Theoretical Physics is lead by Dr Colm T Whelan. http://www.amolf.nl/

7. NIST: Atomic Physics Div. - Laser Cooling And Trapping Gp This department of the National Institute of Standards and Technology studies the physics of laser Category Science Technology Cryotechnology Absolute Zero...... studies are used to develop applications to new kinds of physics measurementsand processes such as high resolution spectroscopy, atomic clocks, atomic http://physics.nist.gov/Divisions/Div842/Gp4/group4.html

Laser Cooling and Trapping Group The Laser Cooling and Trapping Group studies the physics of laser cooling, electromagnetic trapping and other radiative manipulation of neutral atoms and dielectric particles. These fundamental studies are used to develop applications to new kinds of physics measurements and processes such as high resolution spectroscopy, atomic clocks, atomic collisions, atom optics, bio-molecular interactions, and atomic-scale and nano-scale fabrication. Laser cooling and trapping of neutral atoms are explored at NIST in the group of Bill Phillips ( Nobel Prize Group Staff Job Opportunities: Division Postdoctoral Positions Current and Former Post Docs Atomic Physics Division home page Physics Laboratory home page ... NIST home page Projects: Atomic Clock: develop advanced techniques of laser cooling cesium atoms for use in atomic clocks. Bose Einstein Condensation investigate properties and applications of dilute quantum gases of alkali atoms. Cold Collisions study ground state and photoassociative collisions of ultracold atoms. Metastable Xe study ultracold Rydberg atoms and plasmas using laser cooled and trapped metastable xenon.

8. Atomic Physics And Quantum Optics A highquality page of the research, meetings and people involved with University of Amsterdam's Atomic Category Science Physics Optics Lasers...... http://www.science.uva.nl/research/aplp/

9. Discussions With Einstein On Epistemological Problems In Atomic Physics Report by Niels Bohr of his discussions with Albert Einstein over many years on the epistemological implications of quantum theory. http://www.marxists.org/reference/subject/philosophy/works/dk/bohr.htm

Niels Bohr (1949) Discussions with Einstein on Epistemological Problems in Atomic Physics Source : From Albert Einstein: Philosopher-Scientist (1949), publ. Cambridge University Press, 1949. Neils Bohr's report of conversations with Einstein and Einstein's reply. WHEN invited by the Editor of the series, Living Philosophers With unfailing intuition Einstein thus was led step by step to the conclusion that any radiation process involves the emission or absorption of individual light quanta or "photons" with energy and momentum E hf and P hs respectively, where h is Planck's constant, while f and s are the number of vibrations per unit time and the number of waves per unit length, respectively. Notwithstanding its fertility, the idea of the photon implied a quite unforeseen dilemma, since any simple corpuscular picture of radiation would obviously be irreconcilable with interference effects, which present so essential an aspect of radiative phenomena, and which can be described only in terms of a wave picture. The acuteness of the dilemma is stressed by the fact that the interference effects offer our only means of defining the concepts of frequency and wavelength entering into the very expressions for the energy and momentum of the photon. In this situation, there could be no question of attempting a causal analysis of radiative phenomena, but only, by a combined use of the contrasting pictures, to estimate probabilities for the occurrence of the individual radiation processes. However, it is most important to realize that the recourse to probability laws under such circumstances is essentially different in aim from the familiar application of statistical considerations as practical means of accounting for the properties of mechanical systems of great structural complexity. In fact, in quantum physics we are presented not with intricacies of this kind, but with the inability of the classical frame of concepts to comprise the peculiar feature of indivisibility, or "individuality," characterising the elementary processes.

10. Atomic Physics Links atomic physics Links. Lists. atomic physics Resources on the Internet from theWeizmann Institute in Israel; Who's Who in atomic physics. Institutions http://www-phys.llnl.gov/N_Div/atomic.html

Atomic Physics Links Lists Atomic Physics Resources on the Internet from the Weizmann Institute in Israel Who's Who in Atomic Physics Institutions: RWTH at Aachen Technical University, Germany Atomic Physics Research at the University of Aarhus , Denmark Atomic/Radiative Physics at Auburn University Laboratory of Atomic and Solid State Physics at Cornell University Continuum states of atoms and molecules at the Daresbury Laboratory , England European Group for Atomic Spectroscopy European network on highly-charged ion-surface interactions GSI , Darmstadt, Germany Atomic and Molecular Physics Division of the Harvard-Smithsonian Center for Astrophysics J. R. MacDonald Lab at Kansas State University KVI Atomic Physics Facility at Groningen , the Netherlands Los Alamos National Laboratory Lawrence Berkeley Laboratory (LBL) Atomic Physics Micro-EBIS Interactive X-Ray Database Lawrence Livermore National Laboratory (LLNL): Atomic, Nuclear, and Particle Physics Department of Applied Science (UCD) Atomic Physics at Louisiana State University Atomic Physics at Lund University , Sweden Atomic Spectroscopy at Lund University , Sweden Atomic, Molecular and Optical Physics

11. Atomic, Molecular And Optical Physics Seminars Kansas State University. atomic physics Seminars. atomic physicsSeminars are usually at 1330 hrs on Wednesdays in Cardwell 119. http://www.phys.ksu.edu/area/jrm/seminar.html

Atomic Physics Seminars Atomic Physics Seminars are usually at 1330 hrs on Wednesdays in Cardwell 119. Departmental Colloquia are usually on Tuesdays or Thursdays at 1630 hrs. The atomic physics seminar series is managed by Zenghu Chang Last updated on Friday, 07-Mar-2003. Spring 2003 Date Speaker Topic 22 January Bernold Feuerstein KSU Fragmentation dynamics of H /D in intense ultrashort laser pulses Available as HTML or PowerPoint 29 January Hai Nguyen KSU Demonstration of MOTRIMS Probing Capability Available as HTML or PowerPoint 05 February Michael Bromley KSU Positron-atom bound states and a new annihilation mechanism 12 February No Seminar 19 February Mark Smith KSU Collision Induced Dissociation in Slow Collisions 26 February A.T. Le KSU Recent Applications of Hyperspherical Close Coupling Method to Ion-Atom and Positron-Atom Collisions 05 March Available 12 March Available 15-23 March Spring Break 26 March Available 02 April Hu Suxing Nebraska TBA 09 April Shu-Chun (Amy) Cheng KSU TBA 16 April Available 23 April Available 30 April Available 07 May Available You may also view the current schedule or past seminars via our site map The current schedule is also available in our Outlook public calendars Please note that no attempt has been made to maintain the links

12. Atomic, Molecular, Optical (AMO) Physics In Sweden atomic physics Group, Ingvar Lindgren Laser Spectroscopy of Negative Ions Dag HanstorpHighPrecision Electron Affinity Measurements Doubly Excited States in http://fy.chalmers.se/~f3aamp/sweden.html

Atomic, Molecular, Optical (AMO) Physics in Sweden This page contains links to more detailed information about the Swedish groups in Lund Stockholm and Uppsala working within Atomic, Molecular and Optical Physics. It also gives a link of other AMO resources . If you feel I have missed your work (or someone else's), please tell me about additional links to be included! Ann-Marie.Pendrill@fy.chalmers.se Last updated 7 May 1996 International Evaluation of Swedish Physics, NFR "Sweden for many years has been strong in Atomic Molecular and Optical Physics ... almost all the work is of high quality and some is outstanding" "Sweden is a major center for theoretical calculations in atomic and molecular physics" Research Programmes Atomic Physics Group Ingvar Lindgren Laser Spectroscopy of Negative Ions Dag Hanstorp High-Precision Electron Affinity Measurements Doubly Excited States in Alkaline Negative Ions Resonant Ionization Spectroscopy Investigation of Alkaline Earth Negative Ions Photodetachment Electron Spectroscopy Atomic Theory Quantum Electrodynamics, Sten Salomonson, Hans Persson

13. NIST: Atomic Physics Division - Division 842 About the atomic physics Division The Division, part of NIST's Physics Laboratory,carries out a broad program of longterm experimental and theoretical http://physics.nist.gov/Divisions/Div842/div842.html

About the Atomic Physics Division The Division, part of NIST 's Physics Laboratory , carries out a broad program of long-term experimental and theoretical research in atomic physics. What we do Technical Activities Staff directory Publications Search the Physics Lab Webspace or visit the Site Map Physics Laboratory home page Search NIST Webspace Research Areas The Atomic Physics Division is divided into five technical groups: Atomic Spectroscopy Group: carries out experimental and theoretical research on atomic spectra, and evaluates, compiles and disseminates spectral databases on the World Wide Web and printed publications. Quantum Processes Group develops realistic theoretical models for cold atom interactions, matter waves, nanoscale devices and metrlogy, nanooptics, and quantum information. Plasma Radiation Group measures the electromagnetic emissions of ions and atoms, and applies the associated experimental diagnostic techniques to advance fundamental science and future technologies. Laser Cooling and Trapping Group studies the radiative manipulation of neutral atoms and dielectric particles to develop new measurements and processes with applications to high resolution spectroscopy, atomic clocks, atomic collisions, atom optics, biomolecular interactions, nanoscale fabrication, and quantum information.

14. Smart's Scientific Journal New Physics Theories in Subatomic physics http://members.aol.com/smart1234/SmartPage1.htm

"Smart Science" (c) 1998 - 2003 S. Enterprize Co. S. Enterprize Co Website - New Theories In Physics With Alternative Views A) Sub-Atomic Physics Level Volume 1 - Number 1 - Year 1998 - 2002 The Smart Model - The New AtomicTestament More Info. Stored Off Line The Smart Model - Advanced Theoretical Proton Circuit Analysis The Smart Model - Sub-Atomic Proton Circuit Analysis The same form of the equations are used here, that was shown developed in The Advanced Theoretical Proton Circuit Analysis shown above, shows the Line Spectra for Hydrogen (proton) is closely fit as a Sub-Atomic Harmonic Oscillator. The Smart Model - Line Spectra Of Hydrogen Best Fit This shows a closer fit again using the same form of the equations , showing actual Handbook experimental data line spectra data compared with calculated Harmonic Oscillator Circuit analysis and they are closely matched for the theoretical Smart Model Proton.. The Spiral Plot of the Hydrogen Line Spectra looks just like the Helix Spiral Spinning Field ( HSSF http://smart1234.s-enterprize.com/BasicHSSFview.gif The Spiral Plot using the Log Scale looks just like a human blood cell. The Smart Model - Sub-Atomic Proton Circuit .jpg

15. Atomic Physics - Global Positioning System (GPS), High Power Lasers, NIST, Elect atomic physics encompasses many fields, from detailed study of the atom'sinterior to experients that trap and manipulate single atoms, to. http://physics.about.com/cs/atomicphysics/

zfp=-1 var z336=0; About Homework Help Physics Search in this topic on About on the Web in Products Web Hosting Physics with Joseph Andersen Your Guide to one of hundreds of sites Home Articles Forums ... Help zmhp('style="color:#fff"') Subjects ESSENTIALS Resources for Teachers Physics Experiments you can do at home The 7D's - Physics Problem Solving ... All articles on this topic Stay up-to-date! Subscribe to our newsletter. Advertising Free Credit Report Free Psychics Advertisement Atomic Physics - What Atoms Do Guide picks Despite being the fundamental blocks of chemistry, atoms possess an internal structure and many complicated and fascinating properties. Atomic physics encompasses many fields, from detailed study of the atom's interior to experients that trap and manipulate single atoms, to "atom lasers" - beams of atoms that have the same properties as laser light and the Global Positioning System (GPS). Femtosecond Laser Pulses and Attosecond physics Femtosecond laser pulses illuminate the attosecond world of molecular dynamics. Bose-Einstein Condensation At the beginning of the 20th century, Bose and Einstein predicted a new form of matter - the Bose-Einstein Condensate. Only occurring at ultracold temperatures, BEC was inferred in liquid helium but only created in 1995.

16. Plasma Physics, Atomic Physics, And Astrophysics One of Russia's largest institutions for research in physics and technology. It was founded in 1918 Category Science Physics Plasma Institutes...... atomic spectroscopy; gassurface interaction (adsorption, desorption, ionization,elementary neutron stars, and interstellar medium; solar physics, comet and http://www.ioffe.rssi.ru/pti_ppap.html

Research areas: high-temperature plasma (tokamak, plasma-wave interaction, diagnostics) low-temperature plasma (gas discharge, plasma technology, MHD-phenomena, dense plasma dynamics, shock waves) supersonic flows and motion of bodies atomic collision processes and neutral particle plasma diagnostics atomic spectroscopy gas-surface interaction (adsorption, desorption, ionization, elementary structures) theory of quasars, neutron stars, and interstellar medium solar physics, comet and cosmic ray physics, gamma- and X-ray astronomy mass-spectrometry techniques Staff: 332 researches, including 46 Doctors and 182 Candidates of Sciences Division Officers Director: Victor E. Golant Deputy Director: Yuri P. Golovachov Executive Secretary: Andrei D. Lebedev

17. Atomic Physics At Princeton University Tests of fundamental symmetries (CP and CPT), precision measurements and atomic physics. Includes links to recent publications by the group. http://atomic.princeton.edu/

Atomic Physics at Princeton University William Happer Spin-polarized atoms and nuclei, magnetic resonance imaging, hyperfine interactions, surface interactions, optical pumping. Michael Romalis Fundamental symmetry tests, precision measurements, spin-polarized atoms, magnetometers. Atomic physics research overview

18. Institute Of Molecular And Atomic Physics INSTITUTE OF MOLECULAR AND atomic physics NATIONAL ACADEMY OF SCIENCESOF BELARUS F.Skaryna Ave. 70, 220072 Minsk, Belarus Tel. +375 http://imaph.bas-net.by/

INSTITUTE OF MOLECULAR AND ATOMIC PHYSICS NATIONAL ACADEMY OF SCIENCES OF BELARUS F.Skaryna Ave. 70, 220072 Minsk, Belarus Tel.: +375 17 2841635, Fax: +375 17 2840030 E-mail: imafbel @imaph.bas-net.by Administration Director: Doctor of Science Sergey V. Gaponenko Laboratory of Nanooptics tel: +375 17 2841635, fax: +375 17 2840030, e-mail: gaponen @imaph.bas-net.by Deputy Director: Doctor of Science Vasilii V. Mashko tel: +375 17 2840446, fax: +375 17 2840030, e-mail: mashko@imaph.bas-net.by Deputy Director: Dr Mikhail V. Belkov tel: +375 17 2841756, fax: +375 17 2840030, e-mail: belkov@imaph.bas-net.by Scientific Secretary: Dr Igor V. Filatov tel: +375 17 2842341, fax: +375 17 2840030, e-mail: filatov@imaph.bas-net.by Research Activities Investigation of structure and properties of matter by optical methods Spectroscopy of matter in gas and condensed phases Intra- and intermolecular fast processes Plasma physics and diagnostics Nanosize structure physics Development of methods for controlling of lasing parameters Interaction of concentrated energy flows with matter Development of analytical and scientific instruments Research Laboratories Laboratory of Infrared Rays Physics Sector of Electron Spectroscopy and Optics Laboratory of Spectroscopy of Free Molecules Laboratory of Photonics of Molecules ... Plasma Accelerators Physics Group New Laboratory of Plasma Processes Physics Laboratory of Laser Diagnostics of Plasma Laboratory of Gas Discharge Physics Laboratory of Nanooptics ... Conferences 2000 New IV International Conference

19. UMSL- Atomic Physics Research Lab http://newton.umsl.edu/~atomic/

20. Atomic Physics Utrecht - Social - Risk Utrecht University, Faculty of Physics and Astronomy, Department of Atomic and Interface Physics plays Category Games Board Games War and Politics Risk Organizations......Utrecht University, Faculty of Physics and Astronomy, Department ofAtomic and Interface Physics. _, atomic physics Risk In principle http://www.phys.uu.nl/~wwwaf/SOCIAL/RISK/

FACULTY of PHYSICS and ASTRONOMY DEBYE INSTITUTE UNIVERSITY UTRECHT Atomic Physics - Risk In principle there is no risk in joining the monthly risk game party of the PhD-students of AGF. Everybody behaves as usual and agressions are mainly fought on the bord . The rules are clear: Everybody is alone and allies are in general made only between people, sharing the same office ( at special occasions, everybody goes against the same person: poor Tycho At the beginning soldiers are stored and terrains are marked, until the beer-consumption takes away all hesitations and wild battles take place. Slowly more and more armies leave the battle field and the situation re-gains a certain clarity. After that you see people turning white or looking satisfied, because they discover how much is left from their glorious armed forces. Finally somebody is kicked out of the game and the winner gets so excited, that he looses control over his face-motorique Loosers are never welcome. Besides H ome S ocial Risk pic 1 pic 2 pic 3 pic 4 ... pic 5 Page maintenance: M.Benndorf

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