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Cited article:

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The Journal of Chemical Physics 140 (17) (2014)
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Spectroscopic characterization of cations: From photoelectron spectroscopy to laser and ion-beam methods

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Branching fractions for CCl(X) in the dissociative energy transfer reactions of Ar(3P2,0) with chloromethanes

Hiroshi Sekiya and Yukio Nishimura
Chemical Physics Letters 175 (1-2) 6 (1990)
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Preservation of rotational cooling following pulse compression TOF mass selection of N2O+ ions created in a supersonic plasma

Michael J. Deluca and Mark A. Johnson
Chemical Physics Letters 162 (4-5) 255 (1989)
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Laser excitation spectrum of OCS+, Ā 2II3/2 &_;harr X̄ 2II3/2, in the gas phase

Martin Ochsner, Masaharu Tsuji and John P. Maier
Chemical Physics Letters 115 (4-5) 373 (1985)
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The electronic absorption spectra of ClCN+, BrCN+, and ICN+ in neon matrices

Samuel Leutwyler, John P. Maier and Uta Spittel
The Journal of Chemical Physics 83 (2) 506 (1985)
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Laser-excitation spectra of the chloroacetylene and deuterochloroacetylene cations, ClCCH+ and ClCCD+

M. A. King, J. P. Maier and M. Ochsner
The Journal of Chemical Physics 83 (7) 3181 (1985)
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Spectroscopic characterisation of open-shell cations. Laser excitation spectra of XCCX+ (X = Cl, Br)

John P. Maier and Liubomir Misev
International Journal of Mass Spectrometry and Ion Processes 58 243 (1984)
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Resolution of the Ã/B̃ photoionization branching ratio paradox for the 12CO+2 B̃(000) state

M. A. Johnson, R. N. Zare, J. Rostas and S. Leach
The Journal of Chemical Physics 80 (6) 2407 (1984)
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Emission and laser-excitation spectra of the ≈A2Π ⇐ ≈X2Π transition of rotationally cooled bromochloroacetylene cation in the gas phase

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Spectroscopic Characterization of Open‐Shell Cations: Emission and Laser Excitation spectra of Rotationally Cooled CH3(CC)2X+, X = Cl, Br

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Photodissociation spectrum of CH3I+ prepared by multiphoton ionization

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Chemical Physics Letters 95 (3) 171 (1983)
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Measurement of spatially resolved gas-phase plasma temperatures by optical emission and laser-induced fluorescence spectroscopy

Glenn P. Davis and Richard A. Gottscho
Journal of Applied Physics 54 (6) 3080 (1983)
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Emission and laser excitation spectra of rotationally cooled cations: Ã 2Πu↔X̃ 2Πg band systems of X(C≡C)2 X+, X=Cl, Br

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The Journal of Chemical Physics 78 (9) 5393 (1983)
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Spatially resolved laser-induced fluorescence and optical emission spectroscopy of carbon tetrachloride glow discharges

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Plasma Chemistry and Plasma Processing 3 (2) 193 (1983)
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Product vibrational analysis of ion—molecule reactions by laser-induced fluorescence in a flowing afterglow: O− + HF → OH(ν = 0.1) + F−

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Chemical Physics Letters 94 (1) 4 (1983)
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SO (B3σ−,A 3Π—X3σ−) Emission from low temperature rare gas—sulfur dioxide afterglows

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Laser induced fluorescence of ions trapped in an ion cyclotron resonance cell: Excitation of CO+X 2Σ, v′′ = 0 and relaxation of CO+A 2Π, v′ = 1

J. Danon, G. Mauclaire, T. R. Govers and R. Marx
The Journal of Chemical Physics 76 (3) 1255 (1982)
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Spectroscopy of molecular ions: Laser induced predissociation of O 2 +

R. Frey, R. Kakoschke, K. M�ller-Dethlefs and E. W. Schlag
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Open-shell organic cations: spectroscopic studies by means of their radiative decay in the gas phase

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Accounts of Chemical Research 15 (1) 18 (1982)
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Radiative lifetime and collisional quenching of carbon monochloride (A 2Δ) in an alternating current glow discharge

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The Journal of Chemical Physics 77 (11) 5298 (1982)
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Emission and laser excitation spectra of rotationally cooled cations in the gas phase: Ã2Π ↔ X̃2Π band systems of 2X+, X = Cl, Br

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Chemical Physics 72 (1-2) 101 (1982)
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Pyridine radical cation and its fluorine substituted derivatives

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Laser‐Induced Fluorescence and Photoelectron‐Photon Coincidence Studies of 3,5‐Octadiyne Cation

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Helvetica Chimica Acta 64 (7) 1985 (1981)
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Struktur und Relaxationsdynamik organischer Radikalkationen in der Gasphase, illustriert am Beispiel des 1,3-Pentadiin-Kations

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Angewandte Chemie 93 (8) 649 (1981)
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The Jahn–Teller effect in C6 F+6

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The Journal of Chemical Physics 74 (6) 3240 (1981)
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Structure and Decay of Gaseous Organic Radical Cations Studied by Their Radiative Decay, Exemplified by the 1,3‐Pentadiyne Cation

John P. Maier
Angewandte Chemie International Edition in English 20 (8) 638 (1981)
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Radiative and nonradiative decay rates of state selected H–(C≡C)–2H+, D–(C≡C)–2D+, Ã2Πu, determined by a photoelectron–photon coincidence technique

John P. Maier and Fritz Thommen
The Journal of Chemical Physics 73 (11) 5616 (1980)
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