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Książki na temat „Molecular ionization”

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Autor: Grafiati
Data publikacji: 4 czerwca 2021
Data aktualizacji: 20 lutego 2023

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1

Miller, George. Radiative properties of molecular nitrogen ions produced by helium penning ionization and argon effects: Interim report for the period September 1, '93 to February 4, '94. [Washington, DC: National Aeronautics and Space Administration, 1994.

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2

Illenberger, E. Gaseous molecular ions: An introduction to elementary processes induced by ionization. Darmstadt: Steinkopff Verlag, 1992.

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3

Theory of molecular Rydberg states. Cambridge: Cambridge University Press, 2011.

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4

Wong, Silvester Siu Kai. A computational study of the influence of molecular nitrogen and laser absorption on plasma channel formation created by laser resonance saturation of sodium vapor. [Downsview, Ont.]: Institute for Aerospace Studies, 1985.

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5

Wong, Silvester Siu Kai. A computational study of the influence of molecular nitrogen and laser absorption on plasma channel formation created by laser resonance saturation of sodium vapor. Downsview, Ont: Institute for Aerospace Studies, 1986.

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6

Ivan, Powis, Baer Tomas i Ng C. Y. 1947-, red. High resolution laser photoionization and photoelectron studies. Chichester [England]: Wiley, 1995.

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7

Bates, D. R. Advances in Atomic, Molecular, and Optical Physics, 29. Burlington: Elsevier, 1991.

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8

I, Alvarez, Cisneros C i Morgan T. J, red. Proceedings of the Fourth US/Mexico Symposium on Atomic and Molecular Physics: Antigua Hacienda de Galindo, San Juan del Río, Querétero [i.e. Querétaro], México, December 7-10, 1994. Singapore: World Scientific, 1995.

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9

J, Kylstra N., i Potvliege R. M, red. Atoms in intense laser fields. Cambridge: Cambridge University Press, 2011.

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10

(Hans), Kleinpoppen H., red. Analysis of excitation and ionization of atoms and molecules by electron impact. Berlin: Springer, 2010.

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11

International Conference on X-Ray and Inner-Shell Processes (17th 1996 Hamburg, Germany). X-ray and inner-shell processes: 17th International Conference : Hamburg, Germany, September, 1996. Redaktorzy Johnson R. L, Schmidt-Böcking H, Sonntag B. F i American Institute of Physics. Woodbuty, New York: American Institute of Physics, 1997.

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12

Fechner, Lutz. High-Resolution Experiments on Strong-Field Ionization of Atoms and Molecules. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-32046-5.

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13

Chaudhry, Afzal, i Hans Kleinpoppen. Analysis of Excitation and Ionization of Atoms and Molecules by Electron Impact. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4419-6947-7.

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14

NATO, Advanced Research Workshop on Methods and Mechanisms for Producing Ions from Large Molecules (1990 Minaki Ont ). Methods and mechanisms for producing ions from large molecules. New York: Plenum Press, 1991.

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15

Moncke, Doris. Photoionization of polyvalent ions. Hauppauge, NY: Nova Publishers, 2009.

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16

Ortiz, Joseph. Propagator Calculations on Molecular Ionization and Excitation Processes. Dissertation Discovery Company, 2019.

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17

Ortiz, Joseph. Propagator Calculations on Molecular Ionization and Excitation Processes. Creative Media Partners, LLC, 2019.

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18

Mason, Nigel, i K. N. Joshipura. Atomic-Molecular Ionization by Electron Scattering: Theory and Applications. Cambridge University Press, 2019.

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19

Mason, Nigel, i K. N. Joshipura. Atomic-Molecular Ionization by Electron Scattering: Theory and Applications. Cambridge University Press, 2018.

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20

Ho, Wing-Cheung. Molecular ions: From linear to non-linear infrared spectroscopy. 1990.

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21

Illenberger, Eugen, i Jacques Momigny. Gaseous Molecular Ions: An Introduction to Elementary Processes Induced by Ionization. Steinkopff, Dietrich, 2013.

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22

Illenberger, Eugen, i Jacques Momigny. Gaseous Molecular Ions: An Introduction to Elementary Processes Induced by Ionization. Steinkopff, Dietrich, 2012.

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23

Gross, Michael L., A. K. Ganguly i Birendra N. Pramanik. Applied Electrospray Mass Spectrometry: Practical Spectroscopy Series Volume 32. Taylor & Francis Group, 2002.

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24

Gross, Michael L., A. K. Ganguly i Birendra N. Pramanik. Applied Electrospray Mass Spectrometry: Practical Spectroscopy Series Volume 32. Taylor & Francis Group, 2002.

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25

Gross, Michael L., A. K. Ganguly i Birendra N. Pramanik. Applied Electrospray Mass Spectrometry: Practical Spectroscopy Series Volume 32. Taylor & Francis Group, 2002.

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26

Gross, Michael L., A. K. Ganguly i Birendra N. Pramanik. Applied Electrospray Mass Spectrometry: Practical Spectroscopy Series Volume 32. Taylor & Francis Group, 2002.

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27

(Editor), Birendra N. Pramanik, A. K. Ganguly (Editor) i Michael L. Gross (Editor), red. Applied Electrospray Mass Spectrometry (Practical Spectroscopy). CRC, 2002.

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28

Gross, Michael L., A. K. Ganguly i Birendra N. Pramanik. Applied Electrospray Mass Spectrometry: Practical Spectroscopy Series Volume 32. Taylor & Francis Group, 2002.

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29

Belanger, Susan M. A discharge flow study of the kinetics of trifluoromethyl radicals with molecular oxygen. 1986.

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30

Child, M. S. Theory of Molecular Rydberg States. Cambridge University Press, 2011.

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31

Child, M. S. Theory of Molecular Rydberg States. Cambridge University Press, 2011.

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32

Child, M. S. Theory of Molecular Rydberg States. Cambridge University Press, 2011.

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33

Child, M. S. Theory of Molecular Rydberg States. Cambridge University Press, 2011.

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34

(Editor), T. J. Morgan, red. Atomic and Molecular Physics: Third U.S./Mexico Symposium, Morelos, Mexico, 13-16, March, 1991. World Scientific Pub Co Inc, 1992.

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35

National Aeronautics and Space Administration (NASA) Staff. Radiative Properties of Molecular Nitrogen Ions Produced by Helium Penning Ionization and Argon Effects. Independently Published, 2018.

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36

Illenberger, Eugen, i Jacques Momigny. Gaseous Molecular Ions: An Introduction to Elementary Processes Induced by Ionization (Topics in Physical Chemistry). Steinkopff-Verlag Darmstadt, 1999.

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37

Seth, Raghav, i George E. Smith. Brownian Motion and Molecular Reality. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780190098025.001.0001.

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Legend has it that Jean Perrin’s experiments on Brownian motion between 1905 and 1913 “put a definite end to the long struggle regarding the real existence of molecules.” Close examination of these experiments, however, shows how little access they gained to the molecular realm. They did succeed in determining mean kinetic energies of particles in Brownian motion, but the values for molecular magnitudes Perrin inferred from them simply presupposed that those energies match the mean kinetic energies of molecules in the surrounding fluid. This presupposition became increasingly suspect between 1908 and 1913 as distinctly different values for these magnitudes were obtained from alpha-particle emissions (by Rutherford et al.), from ionization (by Millikan), and from Planck’s blackbody radiation equation. This monograph explains how Perrin’s measurements of the kinetic energies in Brownian motion were nevertheless exemplars of theory-mediated measurement—the practice of inferring values for inaccessible quantities from values of accessible proxies via theoretical relationships between them. Moreover, though Planck in 1900 had proposed turning to complementary theory-mediated measurements of interlinked molecular magnitudes as a source of evidence, it was Perrin more than anyone else who championed this approach. The concerted efforts of Rutherford, Millikan, Planck, Perrin, and their colleagues during the years in question led to evidence of this form becoming central to microphysics. The analysis here of how this came about replaces an untenable legend with an account that is not only tenable, but far more instructive about what the evidence did and did not show.
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38

Algebraic Chemistry: Applications and Origins. Nova Science Pub Inc, 2013.

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39

(Editor), Antonio Bianconi, Augusto Marcelli (Editor) i Naurang L. Saini (Editor), red. X-Ray and Inner-Shell Processes: 19th International Conference on X-Ray and Inner-Shell ProcessesRome, Italy 24-28 June 2002 (AIP Conference Proceedings / Atomic, Molecular, Chemical Physics). American Institute of Physics, 2003.

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40

Vivanco, Fernando. Cardiovascular Proteomics: Methods and Protocols (Methods in Molecular Biology). Humana Press, 2007.

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41

Wolf, E. L. Fusion Energy Technology on Earth. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198769804.003.0006.

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Deuterium fusion in a small field-ionization device is described. The small rate of deuterium fusion observed in the deuterium-muon version of the hydrogen molecule-ion is discussed. A simplified description is offered of the tokamak reactor filled with deuterium or deuterium-tritium molecular gases. The potential power output of such devices, neglecting any role of plasma instabilities, is estimated roughly by scaling in temperature and density the formula for fusion in the Sun’s core provided in Chapter 4. If it can be achieved, deuteron fusion would qualify as a renewable energy process given the large supply of deuterons in the sea. In this Chapter we build upon what we learned about fusion in the Sun with the hope of applying the same process on Earth.
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42

Higgins, M. J. Atomic and Molecular Data for Fusion, Part 3: Recommended Cross Sections and Rates for Electron Impact Ionization of Atoms and Ions (Reports). AEA Technology Plc, 1989.

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43

Ionization, Correlation, and Polarization in Atomic Collisions: International Symposium on (e,2e), Double Photoionization, and Related Topics and the Thirteenth ... / Atomic, Molecular, Chemical Physics). American Institute of Physics, 2006.

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44

He, Guang S. Laser Stimulated Scattering and Multiphoton Excitation. Oxford University Press, 2022. http://dx.doi.org/10.1093/oso/9780192895615.001.0001.

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Laser Stimulated Scattering and Multiphoton Excitation is the first book that comprehensively covers the following three major areas: (1) Quantum electrodynamic theory of stimulated scattering and multiphoton excitation processes; (2) Various stimulated scattering effects, including the early discovered stimulated Raman scattering (SRS) and stimulated Brillouin scattering (SBS), the later investigated stimulated Kerr scattering (SKS), and the recently developed stimulated Rayleigh–Bragg scattering (SRBS) and stimulated Mie scattering (SMS); (3) Multiphoton excitation-based nonlinear optical effects, photoelectric effects, atomic and molecular ionization effects, and molecular dissociation effects. Each chapter covers: (i) the concept and mechanism description, (ii) the necessary theoretical formulation, (iii) the experimental research achievements, and (iv) the scientific/technological applications. Laser Stimulated Scattering and Multiphoton Excitation is useful and suitable for academics, experts, and students working or interested in the areas of nonlinear optics, nonlinear photonics, laser spectroscopy, physical optics, physical chemistry, and optoelectronic engineering.
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45

Joachain, C. J., N. J. Kylstra i R. M. Potvliege. Atoms in Intense Laser Fields. Cambridge University Press, 2012.

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46

Joachain, C. J., N. J. Kylstra i R. M. Potvliege. Atoms in Intense Laser Fields. Cambridge University Press, 2012.

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47

Joachain, C. J., N. J. Kylstra i R. M. Potvliege. Atoms in Intense Laser Fields. Cambridge University Press, 2014.

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48

Joachain, C. J., N. J. Kylstra i R. M. Potvliege. Atoms in Intense Laser Fields. Cambridge University Press, 2011.

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49

Riley, Peter. The role of the microbiology laboratory in antimicrobial stewardship. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780198758792.003.0010.

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Microbiology laboratories play an important role in antimicrobial stewardship at the level of individual patients and the population as a whole. When empiric therapy has been started, rapid results can lead to earlier targeted treatment. Accumulated results of susceptibility tests can be analysed and used to generate local or national guidelines on empiric treatment and prophylaxis. Several methods can be used to determine microbial identity and antimicrobial susceptibility, including traditional culture-based methods and newer molecular methods such as matrix-assisted laser desorption ionization time-of-flight (MALDI-TOF) mass spectrometry, polymerase chain reaction (PCR), and whole-genome sequencing. These methods and potential advantages are reviewed. Before results are reported, expert rules are applied and results edited. At this point the laboratory can influence prescribing practices.
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50

Fechner, Lutz. High-Resolution Experiments on Strong-Field Ionization of Atoms and Molecules: Test of Tunneling Theory, the Role of Doubly Excited States, and Channel-Selective Electron Spectra. Springer International Publishing AG, 2018.

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