| Record ID | marc_columbia/Columbia-extract-20221130-005.mrc:586396189:3573 |
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LEADER: 03573mam a22003254a 4500
001 2464626
005 20220616051553.0
008 990419t20002000njua b 001 0 eng
010 $a 99031032
020 $a0691009627 (cloth : alk. paper)
035 $a(OCoLC)ocm41299364
035 $9AQB4627CU
035 $a2464626
040 $aDLC$cDLC$dC#P$dOrLoB-B
042 $apcc
050 00 $aQC173.4.A87$bS55 2000
082 00 $a539/.14$221
100 1 $aSilverman, Mark P.$0http://id.loc.gov/authorities/names/n92103360
245 10 $aProbing the atom :$binteractions of coupled states, fast beams, and loose electrons /$cMark P. Silverman.
260 $aPrinceton, N.J. :$bPrinceton University Press,$c[2000], ©2000.
300 $axix, 226 pages :$billustrations ;$c25 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
504 $aIncludes bibliographical references and index.
505 00 $tPreface: In at the Beginnings --$gCh. 1.$tEnergies and Spectral Lines.$g1.1.$tAnatomy of Hydrogen.$g1.2.$tShapes and Widths --$gCh. 2.$tThe Driven Two-Level Atom.$g2.1.$tDynamics of a Two-Level Atom.$g2.2.$tRotating-Wave Approximation.$g2.3.$tOscillating-Field Theory.$g2.4.$tOccupation Probabilities --$gCh. 3.$tThe Driven Multilevel Atom.$g3.1.$tStatistical Uncertainties and the Density Matrix.$g3.2.$tTime Evolution of the Density Matrix.$g3.3.$tGeneralized Resonant Field Theory.$g3.4.$tTwo-State Transitions.$g3.5.$tThree-State Transitions.$g3.6.$tFour-State Transitions.$g3.7.$tNumerical Solution of the N-State System.$g3.8.$tCoupling Elements V[subscript [mu][nu]].$gApp.$tEigenvalues and Eigenvectors of Three- and Four-State Systems --$gCh. 4.$tMultiple-Quantum Transitions.$g4.1.$tThe Quantized Radiofrequency Field.$g4.2.$tRemarks on Dipole Coupling.$g4.3.$tThe Two-Level Atom (Again).$g4.4.$tCoherent Field States.$g4.5.$tTriple-Quantum Transitions.$g4.6.$tCrossings and Anticrossings.
505 80 $g4.7.$tResolvent Operator Solution.$g4.8.$tOne- and Three-Photon Lineshapes.$gApp. 4A.$tSemiclassical Theory of Multiphoton Transitions --$gApp. 4B.$tResolvents, Propagators, and Green's Functions --$gCh. 5.$tThe Decay of Coupled States.$g5.1.$tPerspectives on Radiation Damping.$g5.2.$tThe Quantized Optical Field.$g5.3.$tState Amplitudes and Radiative Decay Rates.$g5.4.$tEmission Lineshapes --$gCh. 6.$tOptical Detection Theory.$g6.1.$tThe Process of Detection.$g6.2.$tThe Optical Detection Function.$g6.3.$tThe Efficiency Matrix.$g6.4.$tThe Optical Signal --$gCh. 7.$tState Selection and Lineshape Resolution.$g7.1.$tThe Use of Sequential Fields.$g7.2.$tParallel Oscillating Fields.$g7.3.$tNonparallel Oscillating Fields --$gCh. 8.$tElements of Experimental Design and Application.$g8.1.$tGeneral Description.$g8.2.$tIon Production and Extraction.$g8.3.$tIon Acceleration and Focusing.$g8.4.$tExcited Atom Production.$g8.5.$tThe Radiofrequency System.$g8.6.$tOptical Detection.$g8.7.$tSpectroscopy.
505 80 $g8.8.$tElectron Capture and Atom Formation.$gApp. 8A.$tThe Paraxial Ray Equation for Ions --$gApp. 8B.$tEffect of Standing Waves on a Resonance Lineshape --$gApp. 8C.$tPhenomenological Model of the RF Chamber.
520 1 $a"This book gives an in-depth account of the author's own penetrating experimental and theoretical investigations of the hydrogen atom, while simultaneously providing broad lessons in the application of quantum mechanics to atomic structure and interactions."--BOOK JACKET.
650 0 $aAtomic structure.$0http://id.loc.gov/authorities/subjects/sh85009322
852 00 $bmat$hQC173.4.A87$iS55 2000