<--- Back to Details
First PageDocument Content
Molecular physics / Quantum chemistry / Spectroscopy / Optics / Photoelectrochemical processes / Valence electron / Photon / Autoionization / Ionization / Chemistry / Physics / Atomic physics
Date: 2010-02-04 02:09:57
Molecular physics
Quantum chemistry
Spectroscopy
Optics
Photoelectrochemical processes
Valence electron
Photon
Autoionization
Ionization
Chemistry
Physics
Atomic physics

1 Atomic and Molecular Science PF Activity Report 2008 #26 Fig. 1. The key to observing the superexcited states is measuring the cross sections free from ionization.

Add to Reading List

Source URL: pfwww.kek.jp

Download Document from Source Website

File Size: 156,28 KB

Share Document on Facebook

Similar Documents

PDF Document

DocID: 1vJkR - View Document

PDF Document

DocID: 1vz2M - View Document

Reformulation in mathematical programming: an application to quantum chemistry Leo Liberti ´ LIX, Ecole Polytechnique, FPalaiseau, France

Reformulation in mathematical programming: an application to quantum chemistry Leo Liberti ´ LIX, Ecole Polytechnique, FPalaiseau, France

DocID: 1v4Ke - View Document

Quantum Chemical Workflows in the MoSGrid Science Gateway Alexander Hoffmann1, Jens Krüger2, Richard Grunzke3, Lars Packschies4, Sandra Gesing5, Sonja Herres-Pawlis*1 1Chair of Bioinorganic Chemistry, RWTH Aachen Unive

Quantum Chemical Workflows in the MoSGrid Science Gateway Alexander Hoffmann1, Jens Krüger2, Richard Grunzke3, Lars Packschies4, Sandra Gesing5, Sonja Herres-Pawlis*1 1Chair of Bioinorganic Chemistry, RWTH Aachen Unive

DocID: 1uQEF - View Document

arXiv:physicsv2 25 Aug 2005 ‘DARK MATTER’ AS A QUANTUM FOAM IN-FLOW EFFECT Reginald T. Cahill School of Chemistry, Physics and Earth Sciences

arXiv:physicsv2 25 Aug 2005 ‘DARK MATTER’ AS A QUANTUM FOAM IN-FLOW EFFECT Reginald T. Cahill School of Chemistry, Physics and Earth Sciences

DocID: 1uAP8 - View Document