N.J. Reilly, D.L. Kokkin, X. Zhuang, V. Gupta, R. Nagarajan, R.C. Fortenberry, J.P. Maier, T.C. Steimle, J.F. Stanton, and M.C. McCarthy
J. Chem. Phys., 2012, Accepted Manuscript.
The Electronic Spectrum of Si₃ I: Triplet D_3h System


John F. Stanton, Etienne Garand, Jongjin Kim, Tara I. Yacovitch, Christian Hock, Amanda S. Case, Elisa M. Miller, Yu-Ju Lu, Kristen M. Vogelhuber, Scott W. Wren, Takatoshi Ichino, John P. Maier, Robert J. McMahon, David L. Osborn, Daniel M. Neumark, and W. Carl Lineberger
J. Chem. Phys., 2012, Accepted Manuscript.
Ground and Low-Lying Excited States of Propadienylidene (H₂C=C=C:) Obtained by Negative Ion Photoelectron Spectroscopy


Iryna Garkusha, Jan Fulara, and John P. Maier
J. Mol. Struct., 2012, In Press.
Fluorescence of protonated pyrene and coronene in neon matrices




Zohra Guennoun and John P. Maier
in "Handbook of High-resolution Spectroscopy", Vol. 2: From MW to IR and UV Spectroscopy, Eds.: M. Quack and F. Merkt, pp. 1321–1343, John Wiley & Sons, 2011.
Electronic Spectroscopy of Transient Molecules


Adam Nagy, Jan Fulara, and John P. Maier
J. Am. Chem. Soc., 133(49), 19796–19806, 2011.
Formation of Aromatic Structures from Chain Hydrocarbons in Electrical Discharges: Absorption and Fluorescence Study of C₁₁H₉⁺ and C₁₁H₉^• Isomers in Neon Matrices


Ahn Le, Timothy C. Steimle, Varun Gupta, Corey A. Rice, John P. Maier, Sheng H. Lin, and Chih-Kai Lin
J. Chem. Phys., 135(10), 104303/1–11, 2011.
The visible spectrum of zirconium dioxide, ZrO₂


Iryna Garkusha, Jan Fulara, Peter J. Sarre, and John P. Maier
J. Phys. Chem. A, 115(40), 10972–10978, 2011.
Electronic Absorption Spectra of Protonated Pyrene and Coronene in Neon Matrices


Michael D. Morse and John P. Maier
Astrophys. J., 732(2), 103/1–5, 2011.
Detection of nonpolar ions in ²Π_3/2 states by radioastronomy via magnetic dipole transitions


Fabio J. Mazzotti, Ranjini Raghunandan, Aaseef Muhammed Esmail, Marek Tulej, and John P. Maier
J. Chem. Phys., 134(16), 164303/1–7, 2011.
Characterization of C₄H in the A²Π and X²Σ⁺ states by double resonance four-wave mixing


Ranjini Raghunandan, Fabio J. Mazzotti, Aaseef M. Esmail, and John P. Maier
J. Phys. Chem. A, 115(34), 9365–9369, 2011.
Renner−Teller and Fermi Resonance Interactions for the v₃=1 and v₇=2 Vibronic Levels in the A²Π_u and X²Π_g Electronic States of HC₄H⁺


M. Tulej, F.J. Mazzotti, and J.P. Maier
J. Phys. Chem. A, 115(25), 6878–6881, 2011.
Two-Color Photodetachment Study of the A³Π−X³Σ⁻ Origin Band of C₅H⁻


J.P. Maier, S. Chakrabarty, F.J. Mazzotti, C.A. Rice, R. Dietsche, G.A.H. Walker, and D.A. Bohlender
Astrophys. J. Lett., 729(2), L20/1–4, 2011.
Assignment of 5069 Å diffuse interstellar band to HC₄H⁺: disagreement with laboratory absorption band


Adam Nagy, Jan Fulara, Iryna Garkusha, and John P. Maier
Angew. Chem. Int. Ed., 50(13), 3022–3025, 2011.
On the Benzylium/Tropylium Ion Dichotomy: Electronic Absorption Spectra in Neon Matrices


Iryna Garkusha, Jan Fulara, Adam Nagy, and John P. Maier
Astrophys. J., 728(2), 131/1–7, 2011.
Electronic absorption spectra of protonated anthracenes and phenanthrenes, and their neutrals in neon matrices


J.P. Maier, G.A.H. Walker, D.A. Bohlender, F.J. Mazzotti, R. Raghunandan, J. Fulara, I. Garkusha, and A. Nagy
Astrophys. J., 726(1), 41/1–9, 2011.
Identification of H₂CCC as a diffuse interstellar band carrier




John P. Maier and Stefan Willitsch
Chimia, 64(12), 855–857, 2010.
Spectroscopy and Chemical Dynamics


Xiujuan Zhuang, Anh Le, Timothy C. Steimle, Ramya Nagarajan, Varun Gupta, and John P. Maier
Phys. Chem. Chem. Phys., 12(45), 15018–15028, 2010.
Visible Spectrum of Titanium Dioxide


Iryna Garkusha, Jan Fulara, Adam Nagy, and John P. Maier
J. Am. Chem. Soc., 132(42), 14979–14985, 2010.
Electronic Transitions of Protonated Benzene and Fulvene, and of C₆H₇ Isomers in Neon Matrices


Ramya Nagarajan and John P. Maier
Int. Rev. Phys. Chem., 29(3), 521–554, 2010.
Electronic spectra of carbon chains and derivatives


Jan Fulara, Adam Nagy, Iryna Garkusha, and John P. Maier
J. Chem. Phys., 133(2), 024304/1–9, 2010.
Higher energy electronic transitions of HC_2n+1H⁺ (n=2–7) and HC_2n+1H (n=4–7) in neon matrices


C.A. Rice, V. Rudnev, R. Dietsche, and J.P. Maier
Astron. J., 140(1), 203–205, 2010.
Gas-Phase Electronic Spectra of Polyacetylene Cations: Relevance of Higher Excited States


H. Linnartz, N. Wehres, H. Van Winckel, G.A.H. Walker, D.A. Bohlender, A.G.G.M. Tielens, T. Motylewski, and J.P. Maier
Astron. Astrophys., 511, L3/1–4, 2010.
A coincidence between a hydrocarbon plasma absorption spectrum and the λ5450 DIB


Ranjini Raghunandan, Fabio J.Mazzotti, and John P. Maier
J. Am. Soc. Mass Spectrom., 21(5), 694–697, 2010.
Electronic Spectra of C₆H⁺ and C₆H₃⁺ in the Gas Phase


Richa Chauhan, Fabio J. Mazzotti, Ranjini Raghunandan, Marek Tulej, Peter P. Radi, and John P. Maier
J. Phys. Chem. A, 114(9), 3329–3333, 2010.
Rotationally Resolved Ground State Vibrational Levels of HC₂S Studied by Two-Color Resonant Four-Wave Mixing


M. Tulej, T. Pino, M. Pachkov, and J.P. Maier
Mol. Phys., 108(7–9), 865–871, 2010.
Electronic transitions of the C₅H⁻ anion


C.A. Rice, V. Rudnev, S. Chakrabarty, and J.P. Maier
J. Phys. Chem. A, 114(4), 1684–1687, 2010.
D²Π_u, C²Π_u ← X²Π_g electronic transitions of NCCN⁺




C. Apetrei, A.E.W. Knight, E. Chasovskikh, E.B. Jochnowitz, H. Ding, and J.P. Maier
J. Chem. Phys., 131(6), 064305/1–7, 2009.
Gas phase electronic spectrum of T-shaped AlC₂ radical


A. Mitrushchenkov, R. Linguerri, P. Rosmus, and J.P. Maier
Mol. Phys., 107(15), 1549–1553, 2009.
Alternation of the spin-orbit coupling in the ²Π ground state of HC_nS (n = 1–12) radicals


Cristina Apetrei, Ramya Nagarajan, and John P. Maier
J. Phys. Chem. A, 113(42), 11099–11100, 2009.
Gas Phase 1¹Σ_u⁺ ← X¹Σ_g⁺ Electronic Spectra of Polyacetylenes HC_2nH, n = 5–7


Ranjini Raghunandan, Fabio J. Mazzotti, Richa Chauhan, Marek Tulej, and John P. Maier
J. Phys. Chem. A, 113(47), 13402–13406, 2009.
Selective Detection of Radicals and Ions in a Slit-Jet Discharge by Degenerate and Two-Color Four-Wave Mixing


Hailing Wang, Timothy C. Steimle, Cristina Apetrei, and John P. Maier
Phys. Chem. Chem. Phys., 11(15), 2649–2656, 2009.
Characterization of the X ¹A₁ and à ¹B₂ electronic states of titanium dioxide, TiO₂


Evan B. Jochnowitz, Egor Chasovskikh, and John P. Maier
J. Mol. Spectrosc., 254(1), 53–54, 2009.
The A²Π–X²Σ⁺ electronic transition in MgC₄D


Łukasz Chacaga, Evan B. Jochnowitz, Zohra Guennoun, Hongbin Ding, and John P. Maier
Int. J. Mass Spectrom., 280(1–3), 174–178, 2009.
The electronic gas-phase spectrum of B₃ radical revisited




Fabio J. Mazzotti, Richa Chauhan, Zahra Jamshidi, Marek Tulej, Peter P. Radi, and John P. Maier
Mol. Phys., 106(24), 2709–2715, 2008.
The òΠ_3/2 – X²Π_3/2 electronic transition of HC₄S isotopologues


I. Garkusha, A. Nagy, Z. Guennoun, and J.P. Maier
Chem. Phys., 353(1–3), 115–118, 2008.
Electronic absorption spectrum of titanium dioxide in neon matrices


V. Rudnev, C.A. Rice, and J.P. Maier
J. Chem. Phys., 129(13), 134315/1–4, 2008.
B ²Σ_u⁺ ← X ²Π_g electronic spectrum of NCCN⁺ in the gas phase


Egor Chasovskikh, Evan B. Jochnowitz, and John P. Maier
J. Phys. Chem. A, 112(37), 8686–8689, 2008.
Electronic spectra of the MgC₄H and MgC₆ radicals


Evan B. Jochnowitz and John P. Maier
in "Organic Matter in Space", Proceedings IAU Symposium, No. 251, Eds.: S. Kwok and S. Sanford, pp. 395–402, Cambridge University Press, 2008.
Electronic Spectra of Carbon Chains and Rings: Astrophysical Relevance?


E.B. Jochnowitz and J.P. Maier
Mol. Phys., 106(16–18), 2093–2106, 2008.
Electronic spectra of carbon chains


H. Ding, C. Apetrei, Ł. Chacaga, and J.P. Maier
Astrophys. J., 677(1), 348–352, 2008.
Electronic spectra of MgC_2nH (n = 1–3) chains in the gas phase


Evan B. Jochnowitz and John P. Maier
Ann. Rev. Phys. Chem., 59, 519–544, 2008.
Electronic spectroscopy of carbon chains


Ivan Shnitko, Jan Fulara, Iryna Garkusha, Adam Nagy, and John P. Maier
Chem. Phys., 346(1–3), 8–12, 2008.
Electronic transitions of S₂⁻ and S₃⁻ in neon matrixes


Fabio J. Mazzotti, Elena Achkasova, Richa Chauhan, Marek Tulej, Peter P. Radi, and John P. Maier
Phys. Chem. Chem. Phys., 10(1), 136–141, 2008.
Electronic spectra of radicals in a supersonic slit-jet discharge by degenerate and two-color four-wave mixing




Jan Fulara, Michel Grutter, and John P. Maier
J. Phys. Chem. A, 111(46), 11831–11836, 2007.
Higher Excited Electronic Transitions of Polyacetylene Cations HC_2nH⁺ n = 2–7 in Neon Matrixes


Egor Chasovskikh, Evan B. Jochnowitz, Eunsook Kim, and John P. Maier
J. Phys. Chem. A, 111(47), 11986–11989, 2007.
Electronic Spectrum of the AlC₂ Radical


Cristina Apetrei, Hongbin Ding, and John P. Maier
Phys. Chem. Chem. Phys., 9(29), 3897–3901, 2007.
Gas phase electronic spectrum of linear AlCCH


H. Ding, M.D. Morse, and J.P. Maier
Mol. Phys., 105(8–10), 1251–1261, 2007.
Vibronic analysis of the B ²Π_g – X ²Σ_u⁺ band system of BNB


Jan Fulara, Patrick Freivogel, and John P. Maier
J. Phys. Chem. A, 111(31), 7551–7554, 2007.
Electronic Transitions of CsC₂, CsC₂⁻, and CsC₄ in Neon Matrixes


Anatoly Dzhonson, Evan B. Jochnowitz, Eunsook Kim, and John P. Maier
J. Chem. Phys., 126(4), 044301/1–5, 2007.
Electronic absorption spectra of the protonated polyacetylenes HC_2nH₂⁺ (n=3,4) in the gas phase


Anatoly Dzhonson, Evan B. Jochnowitz, and John P. Maier
J. Phys. Chem. A, 111(10), 1887–1890, 2007.
Electronic Gas-Phase Spectra of Larger Polyacetylene Cations


H. Ding and J.P. Maier
in "Proceedings of the ICN&T 2006", Journal of Physics: Conference Series, Vol. 61, Eds.: E. Meyer, M. Hegner, C. Gerber, and H.-J. Güntherodt, pp. 252–256, IOP Publishing, 2007.
Electronic structures of one-dimension carbon nano wires and rings


A.E. Boguslavskiy and J.P. Maier
Phys. Chem. Chem. Phys., 9(1), 127–130, 2007.
Gas-phase electronic spectrum of the C₁₄ ring




N. Komiha, P. Rosmus, and J.P. Maier
Mol. Phys., 104(20–21), 3281–3285, 2006.
Low lying quartet states in diacetylene, triacetylene and benzene radical cations


Hongbin Ding, Michael D. Morse, Cristina Apetrei, Lukasz Chacaga, and John P. Maier
J. Chem. Phys., 125(19), 194315/1–7, 2006.
Resonant two-photon ionization spectroscopy of BNB


A.E. Boguslavskiy and J.P. Maier
J. Chem. Phys., 125(9), 094308/1–7, 2006.
Gas phase electronic spectra of the carbon chains C₅, C₆, C₈, and C₉


Anton Batalov, Jan Fulara, Ivan Shnitko, and John P. Maier
J. Phys. Chem. A, 110(35), 10404–10408, 2006.
Electronic absorption spectra of the protonated polyacetylenes H₂C_nH⁺ (n = 4, 6, 8) in neon matrixes


A.E. Boguslavskiy, A. Dghzonson, and J.P. Maier
in "Astrochemistry: From Laboratory Studies to Astronomical Observations", AIP Conference Proceedings, Vol. 855, Eds.: R.I. Kaiser, P. Bernath, Y. Osamura, S. Petrie, and A.M. Mebel, pp. 201–208, 2006.
The Electronic Spectra of Carbon Chains, Rings, and Ions of Astrophysical Interest


E. Kim, M. Araki, R. Chauhan, P. Birza, and J.P. Maier
Mol. Phys., 104(18), 2885–2890, 2006.
Electronic spectrum of the hydrocarbon cation CCCCH₃⁺


A. Dhzonson and J.P. Maier
Int. J. Mass Spectrom., 255–256, 139–143, 2006.
Electronic absorption spectra of cold organic cations: 2,4-Hexadiyne


Elena Achkasova, Mitsunori Araki, Alexey Denisov, and John P. Maier
J. Mol. Spectrosc., 237(1), 70–75, 2006.
Gas phase electronic spectrum of propadienylidene C₃H₂


A.E. Boguslavskiy, H. Ding, and J.P. Maier
Int. J. Mass Spectrom., 249–250, 317–320, 2006.
Gas-phase electronic spectra of C₆NH₂ and C₈NH₂


Anatoly Dzhonson, Dieter Gerlich, Evan J. Bieske, and John P. Maier
J. Mol. Struct., 795(1–3), 93–97, 2006.
Apparatus for the study of electronic spectra of collisionally cooled cations: para-dichlorobenzene


John P. Maier, Andrey E. Boguslavskiy, Hongbin Ding, Gordon A. H. Walker, and David A. Bohlender
Astrophys. J., 640(1), 369–372, 2006.
The Gas Phase Spectrum of Cyclic C₁₈ and the Diffuse Interstellar Bands


Ivan Shnitko, Jan Fulara, Anton Batalov, C. Gillery, H. Masso, P. Rosmus, and John P. Maier
J. Phys. Chem. A, 110(9), 2885–2889, 2006.
³Σ⁻–X ³Σ⁻ Electronic Transition of Linear C₆H⁺ and C₈H⁺ in Neon Matrixes




Jennifer van Wijngaarden, Ivan Shnitko, Anton Batalov, Przemyslaw Kolek, Jan Fulara, and John P. Maier
J. Phys. Chem. A, 109(25), 5553–5559, 2005.
Electronic Absorption Spectra of C₃Cl, C₄Cl, and Their Ions in Neon Matrices


Jan Fulara, Ivan Shnitko, Anton Batalov, and John P. Maier
J. Chem. Phys., 123(4), 44305/1–6, 2005.
Electronic absorption spectra of linear and cyclic C_n⁺ n=7–9 in a neon matrix


A.E. Boguslavskiy, H. Ding, and J.P. Maier
J. Chem. Phys., 123(3), 34305/1–7, 2005.
Gas-phase electronic spectra of C₁₈ and C₂₂ rings


Mitsunori Araki, Tomasz Motylewski, Przemyslaw Kolek, and John P. Maier
Phys. Chem. Chem. Phys., 7(10), 2138–2141, 2005.
Electronic absorption spectrum of a nonlinear carbon chain: trans-C₆H₄⁺


Roberto Linguerri, Isabelle Navizet, Pavel Rosmus, Stuart Carter, and John P. Maier
J. Chem. Phys., 122(3), 34301/1–7, 2005.
Vibrations in the B₄ rhombic structure


Elena Achkasova, Mitsunori Araki, Alexey Denisov, and John P. Maier
Mol. Phys., 103(11–12), 1555–1560, 2005.
Rotational analysis of the òB₁ ← X²A₂ electronic spectrum of the allyl radical


Claire Gillery, Roberto Linguerri, Pavel Rosmus, and John P. Maier
Z. Phys. Chem., 219(4), 467–480, 2005.
Theoretical study of the electronically excited states of B₄, B₄⁺ and B₄−


Anton Batalov, Jan Fulara, Ivan Shnitko, and John P. Maier
Chem. Phys. Lett., 404(4–6), 315–317, 2005.
The near infrared 1 ²A₂″ ← X ²A₁′ electronic transition of B₃ in a neon matrix


H. Ding, A.E. Boguslavskiy, and J.P. Maier
Phys. Chem. Chem. Phys., 7(5), 888–891, 2005.
Gas phase electronic spectra of two C₅H₅ radical isomers


Petre Birza, Andrei Chirokolava, Mitsunori Araki, Przemyslaw Kolek, and John P. Maier
J. Mol. Spectrosc., 229(2), 276–282, 2005.
Rotationally resolved electronic spectrum of propadienylidene




H. Ding, A.E. Boguslavskiy, T.W. Schmidt, and J.P. Maier
Chem. Phys. Lett., 392(1–3), 225–228, 2004.
Gas phase electronic spectrum of the nitrogen terminated nanowire NC₁₆N


Dmitriy Khoroshev, Mitsunori Araki, Przemyslaw Kolek, Petre Birza, Andrei Chirokolava, and John P. Maier
J. Mol. Spectrosc., 227(1), 81–89, 2004.
Rotationally resolved electronic spectroscopy of a nonlinear carbon chain radical C₆H₄⁺


P. Cias, M. Araki, A. Denisov, and J.P. Maier
J. Chem. Phys., 121(14), 6776–6778, 2004.
Gas phase detection of cyclic B₃: 2 ²E′ ← X ²A₁′ electronic origin band


Jennifer van Wijngaarden, Anton Batalov, Ivan Shnitko, Jan Fulara, and John P. Maier
J. Phys. Chem. A, 108(19), 4219–4223, 2004.
Electronic Absorption Spectra of C_nCl Radicals (n = 5, 6) and Their Cations in Neon Matrices


Jan Fulara, Evgueni Riaplov, Anton Batalov, Ivan Shnitko, and John P. Maier
J. Chem. Phys., 120(16), 7520–7525, 2004.
Electronic and infrared absorption spectra of linear and cyclic C₆⁺ in a neon matrix


A. Denisov, T.W. Schmidt, A.E. Boguslavskiy, H. Ding, M. Araki, and J.P. Maier
Int. J. Mass Spectrom., 233(1–3), 131–136, 2004.
Sulfur terminated nanowires in the gas phase: laser spectroscopy and mass spectrometry


John P. Maier
in "The Dense Interstellar Medium in Galaxies", Springer Proceedings in Physics, Vol. 91, Eds.: S. Pfalzner, C. Kramer, C. Staubmeier, and A. Heithausen, pp. 55–60, Springer Verlag Berlin, 2004.
Electronic Spectroscopy of Carbon Chains and Their Relevance to Astrophysics


T. Pino, M. Pachkov, M. Tulej, R. Xu, M. Jungen, and J.P. Maier
Mol. Phys., 102(18), 1881–1889, 2004.
Feshbach resonances of the C₃H⁻ anion: laser autodetachment spectroscopy and ab initio calculations


Mitsunori Araki, Pawel Cias, Alexey Denisov, Jan Fulara, and John P. Maier
Can. J. Chem., 82(6), 848–853, 2004.
Electronic spectroscopy of the nonlinear carbon chains C₄H₄⁺ and C₈H₄⁺


John P. Maier, Gordon A.H. Walker, and David A. Bohlender
Astrophys. J., 602(1), 286–290, 2004.
On the Possible Role of Carbon Chains as Carriers of Diffuse Interstellar Bands


Claire Gillery, Pavel Rosmus, Hans-Joachim Werner, Hermann Stoll, and John P. Maier
Mol. Phys., 102(21–22), 2227–2236, 2004.
A theoretical study of the electronically excited states in linear and cyclic C₆⁺


M. Araki, H. Linnartz, P. Kolek, H. Ding, A. Boguslavskiy, A. Denisov, T.W. Schmidt, T. Motylewski, P. Cias, and J.P. Maier
Astrophys. J., 616(2), 1301–1310, 2004.
New laboratory data on a molecular band at 4429 Å




Hongbin Ding, Thomas Pino, Felix Güthe, and John P. Maier
J. Am. Chem. Soc., 125(47), 14626–14630, 2003.
Isomeric Structures and Visible Electronic Spectrum of the C₇H₃ Radicals


H. Ding, T.W. Schmidt, T. Pino, F. Güthe, and J.P. Maier
Phys. Chem. Chem. Phys., 5(21), 4772–4775, 2003.
Towards bulk behaviour of long hydrogenated carbon chains?


Evgueni Riaplov and John P. Maier
J. Phys. Chem. A, 107(42), 8856–8858, 2003.
Electronic Absorption Spectra of C₅S, C₆S, and C₆S⁻ in Neon Matrixes


Petre Birza, Dmitriy Khoroshev, Andrei Chirokolava, Tomasz Motylewski, and John P. Maier
Chem. Phys. Lett., 382(3–4), 245–248, 2003.
Lifetime broadening in the gas phase B²Π ← X²Π electronic spectrum of C₈H


Muriel Wyss, Evgueni Riaplov, Anton Batalov, John P. Maier, Thomas Weber, Wilfried Meyer, and Pavel Rosmus
J. Chem. Phys., 119(18), 9703–9709, 2003.
Electronic absorption spectra of B₃ and B₃⁻ in neon matrices and ab initio analysis of the vibronic structure


T.W. Schmidt, H. Ding, A.E. Boguslavskiy, T. Pino, and J.P. Maier
J. Phys. Chem. A, 107(34), 6550–6553, 2003.
Methyl Substitution in Hydrocarbon Discharge Chemistry: Diagnosis by Laser Spectroscopy


T.W. Schmidt, A.E. Boguslavskiy, T. Pino, H. Ding, and J.P. Maier
Int. J. Mass Spectrom., 228(2–3), 647–654, 2003.
Optical detection of C₉H₃, C₁₁H₃, and C₁₃H₃ from a hydrocarbon discharge source


T.W. Schmidt, T. Pino, J. van Wijngaarden, K. Tikhomirov, F. Güthe, and J.P. Maier
J. Mol. Spectrosc., 222(1), 86–92, 2003.
Electronic photodissociation spectra of the Ar_n–C₄H₂⁺ (n=1–4) weakly bound cationic complexes


H. Ding, T.W. Schmidt, T. Pino, A.E. Boguslavskiy, F. Güthe, and J.P. Maier
J. Chem. Phys., 119(2), 814–819, 2003.
Gas phase electronic spectra of the linear carbon chains HC_2n+1H (n = 3–6,9)


Mitsunori Araki, Harold Linnartz, Pawel Cias, Alexey Denisov, Jan Fulara, Anton Batalov, Ivan Shnitko, and John P. Maier
J. Chem. Phys., 118(23), 10561–10565, 2003.
High-resolution electronic spectroscopy of a nonlinear carbon chain radical C₆H₄⁺


Dietmar Panten , Gilberte Chambaud, Pavel Rosmus, Evgueni Riaplov, and John P. Maier
Z. Phys. Chem., 217(3), 231–240, 2003.
Rovibronic States in the X ²Π State of the CCS⁻ Anion


Evgueni Riaplov, Muriel Wyss, John P. Maier, Dietmar Panten, Gilberte Chambaud, Pavel Rosmus, and Juergen Fabian
J. Mol. Spectrosc., 222(1), 15–21, 2003.
Electronic absorption spectra of CCS⁻ and CCS in neon matrices


M. Pachkov, T. Pino, M. Tulej, F. Guethe, K. Tikhomirov, and J.P. Maier
Mol. Phys., 101(4–5), 583–588, 2003.
Rotational structure of the origin band in the ¹A′ ← X ¹Σ⁺ electronic transition of C₄H⁻ and C₄D⁻


Evgueni Riaplov, Muriel Wyss, John P. Maier, Majdi Hochlaf, and Pavel Rosmus
Int. J. Mass Spectrom., 223–224, 107–114, 2003.
Electronic and infrared absorption spectra of NCCN⁺




H. Ding, T. Pino, F. Güthe, and J.P. Maier
J. Chem. Phys., 117(18), 8362–8367, 2002.
Electronic spectra of the C_2n+1H (n = 2–4) radicals in the gas phase


P. Ehrenfreund, J. Cami, J. Jiménez-Vicente, B.H. Foing, L. Kaper, A. van der Meer, N. Cox, L. d'Hendecourt, J.P. Maier, F. Salama, P.J. Sarre, T.P. Snow, and P. Sonnentrucker
Astrophys. J., 576(2), L117–L120, 2002.
Detection of Diffuse Interstellar Bands in the Magellanic Clouds


H. Linnartz, D. Verdes, and J.P. Maier
Science 297(5584), 1166–1167, 2002.
Rotationally Resolved Infrared Spectrum of the Charge Transfer Complex [Ar–N₂]⁺


Otto Dopfer, Doris Roth, and John P. Maier
Int. J. Mass Spectrom., 218(3), 281–297, 2002.
Interaction of C₃H₃⁺ isomers with molecular nitrogen: IR spectra of C₃H₃⁺–(N₂)_n clusters (n=1–6)


T. Pino, F. Güthe, H. Ding, and J.P. Maier
J. Phys. Chem. A, 106(42), 10022–10026, 2002.
Gas-Phase Electronic Spectrum of the Tropyl C₇H₇ Radical


P. Cias, O. Vaizert, A. Denisov, J. Mes, H. Linnartz, and J.P. Maier
J. Phys. Chem. A, 106(42), 9890–9892, 2002.
Electronic Gas-Phase Spectrum of the Pentaacetylene Cation


O. Vaizert, P. Furrer, P. Cias, H. Linnartz, and J.P. Maier
J. Mol. Spectrosc., 214(1), 94–95, 2002.
Rotationally Resolved à ²Π_u–X²Π_g Electronic Transition of HC₄D⁺


P. Birza, T. Motylewski, D. Khoroshev, A. Chirokolava, H. Linnartz, and J.P. Maier
Chem. Phys., 283(1–2), 119–124, 2002.
Cw cavity ring down spectroscopy in a pulsed planar plasma expansion


Otto Dopfer, Nicola Solcà, Rouslan V. Olkhov, and John P. Maier
Chem. Phys., 283(1–2), 85–110, 2002.
Microsolvation of the ammonia cation in argon: II. IR photodissociation spectra of NH₃⁺–Ar_n (n=1–6)


T. Pino, M. Tulej, F. Güthe, M. Pachkov, and J.P. Maier
J. Chem. Phys., 116(14), 6126–6131, 2002.
Photodetachment spectroscopy of the C_2nH⁻ (n = 2–4) anions in the vicinity of their electron detachment threshold


Otto Dopfer, Doris Roth, and John P. Maier
J. Am. Chem. Soc., 124(3), 494–502, 2002.
Infrared Spectra of C₃H₃⁺–N₂ Dimers: Identification of Proton-Bound c-C₃H₃⁺–N₂ and H₂CCCH⁺–N₂ Isomers


John P. Maier, Gordon A.H. Walker, and David A. Bohlender
Astrophys. J., 566(1), 332–335, 2002.
Limits to Interstellar C₄ and C₅ toward ζ Ophiuchi


H. Linnartz, D. Pfluger, O. Vaizert, P. Cias, P. Birza, D. Khoroshev, and J.P. Maier
J. Chem. Phys., 116(3), 924–927, 2002.
Rotationally resolved A²Π_u←X²Π_g electronic transition of NC₆N⁺





Marek Tulej, Felix Güthe, Mikhail V. Pachkov, Kirill Tikhomirov, Rong Xu, Martin Jungen, and John P. Maier
Phys. Chem. Chem. Phys., 3(21), 4674–4678, 2001.
Feshbach states of the propadienylidene anion H₂CCC⁻


H. Ding, T. Pino, F. Güthe, and J.P. Maier
J. Chem. Phys., 115(15), 6913–6919, 2001.
Gas phase electronic spectrum of C₃H in the visible


H. Linnartz, O. Vaizert, P. Cias, L. Grüter, and J.P. Maier
Chem. Phys. Lett., 345(1–2), 89–92, 2001.
Rotationally resolved A³Σ_u⁻–X³Σ_g⁻ electronic transition of NC₅N


Felix Güthe, Marek Tulej, Mikhail V. Pachkov, and John P. Maier
Astrophys. J., 555(1), 466–471, 2001.
Photodetachment Spectrum of l-C₃H₂⁻: The Role of Dipole Bound States for Electron Attachment in Interstellar Clouds


Céline Léonard, Dietmar Panten, Pavel Rosmus, Muriel Wyss, and John P. Maier
Collect. Czech. Chem. Commun., 66(7), 983–990, 2001.
Theoretical Study of the A²Σ⁺–X²Π Transition of CCO⁻


Evgueni Riaplov, Muriel Wyss, Nicholas M. Lakin, and John P. Maier
J. Phys. Chem. A., 105(20), 4894–4897, 2001.
Electronic Absorption Spectra of C₄O⁻ and C₄S⁻ in Neon Matrixes


John P. Maier
in "The Physics and Chemistry of Clusters", Proceedings of Nobel Symposium 117, Eds.: E.E.B. Campbell and M. Larsson, pp. 219–232, World Scientific, 2001.
Electronic Spectra of Carbon-Chains — Relevance to Astrophysics


D. Verdes, H. Linnartz, and J.P. Maier
in "The Physics and Chemistry of Clusters", Proceedings of Nobel Symposium 117, Eds.: E.E.B. Campbell and M. Larsson, pp. 311–312, World Scientific, 2001.
High resolution infrared spectroscopy of ionic complexes


M. Pachkov, T. Pino, M. Tulej, and J.P. Maier
Mol. Phys., 99(16), 1397–1405, 2001.
Electronic transition of C₃H⁻ in the vicinity of the lowest photodetachment threshold


Muriel Wyss, Evgueni Riaplov, John P. Maier, Majdi Hochlaf, and Pavel Rosmus
Helv. Chim. Acta, 84(6), 1432–1440, 2001.
The A ¹Π_(u) ← X ¹Σ_(g)⁺ Electronic Transition of CCN⁺ and CNC⁺


Muriel Wyss, Evgueni Riaplov, and John P. Maier
J. Chem. Phys., 114(23), 10355–10361, 2001.
Electronic and infrared spectra of H₂C₃H⁺ and cyclic C₃H₃⁺ in neon matrices


Doris Roth, Otto Dopfer, and John P. Maier
Phys. Chem. Chem. Phys., 3(12), 2400–2410, 2001.
Intermolecular potential energy surface of the proton-bound H₂O⁺–He dimer: Ab initio calculations and IR spectra of the O–H stretch vibrations


Felix Güthe, Hongbin Ding, Thomas Pino, and John P. Maier
Chem. Phys., 269(1–3), 347–355, 2001.
Diagnosis of a benzene discharge with a mass-selective spectroscopic technique


John P. Maier, Nicholas M. Lakin, Gordon A.H. Walker, and David A. Bohlender
Astrophys. J., 553(1), 267–273, 2001.
Detection of C₃ in Diffuse Interstellar Clouds


Olga Vaizert, Tomasz Motylewski, Muriel Wyss, Evgueni Riaplov, Harold Linnartz, and John P. Maier
J. Chem. Phys., 114(18), 7918–7922, 2001.
The A ³Σ⁻–X ³Σ⁻ electronic transition of HC₆N


Otto Dopfer, Doris Roth, and John P. Maier
J. Chem. Phys., 114(16), 7081–7093, 2001.
Microsolvation of the water cation in neon: Infrared spectra and potential energy surface of the H₂O⁺–Ne open-shell ionic complex


C. Léonard, D. Panten, P. Rosmus, M. Wyss, and J.P. Maier
Chem. Phys., 264(3), 267–273, 2001.
Theoretical study of the A ¹Π–X ¹Σ⁺ transition in C₂B⁻


Thomas Pino, Hongbin Ding, Felix Güthe, and John P. Maier
J. Chem. Phys., 114(5), 2208–2212, 2001.
Electronic spectra of the chains HC_2nH (n = 8–13) in the gas phase




Otto Dopfer, Doris Roth, and John P. Maier
J. Phys. Chem. A., 104(50), 11702–11713, 2000.
Microsolvation of the Water Cation in Argon: II. Infrared Photodissociation Spectra of H₂O⁺–Ar_n (n = 1–14)


Doris Roth, Otto Dopfer, and John P. Maier
Phys. Chem. Chem. Phys., 2(22), 5013–5019, 2000.
Infrared spectrum and ab initio calculations of the HNH⁺–Ne open-shell ionic dimer


David Pfluger, Tomasz Motylewski, Harold Linnartz, Wayne E. Sinclair, and John P. Maier
Chem. Phys. Lett., 329(1–2), 29–35, 2000.
Rotationally resolved A ²Π_u ← X ²Π_g electronic spectrum of tetraacetylene cation


Nicholas M. Lakin, Mikhail Pachkov, Marek Tulej, John P. Maier, Gilberte Chambaud, and Pavel Rosmus
J. Chem. Phys., 113(21), 9586–9592, 2000.
Theoretical and experimental study of the A²Π_u–X²Π_g band system of C₇⁻


C. Léonard, G. Chambaud, P. Rosmus, S. Carter, N.C. Handy, M. Wyss, and J.P. Maier
J. Chem. Phys., 113(13), 5228–5234, 2000.
Large amplitude vibrations in the X²A₁ state of C₂B


Nicholas M. Lakin, Felix Güthe, Marek Tulej, Michail Pachkov, and John P. Maier
Faraday Discuss., 115(Molecular Photoionisation), 383–393, 2000.
Spectroscopy of excited states of carbon anions above the photodetachment threshold


H. Linnartz, D. Verdes, P.J. Knowles, N.M. Lakin, P. Rosmus, and J.P. Maier
J. Chem. Phys., 113(3), 895–898, 2000.
Linear and centrosymmetric N₂···Ar⁺···N₂


Otto Dopfer, Doris Roth, and John P. Maier
J. Chem. Phys., 113(1), 120–127, 2000.
Potential energy surface and infrared spectrum of the Ar–H₂Cl⁺ ionic complex


Harold Linnartz, Olga Vaizert, Tomasz Motylewski, and John P. Maier
J. Chem. Phys., 112(22), 9777–9779, 2000.
The ³Σ_u⁻←X ³Σ_g⁻ electronic spectrum of linear C₄ in the gas phase


Wayne E. Sinclair, David Pfluger, Dorinel Verdes, and John P. Maier
J. Chem. Phys., 112(20), 8899–8903, 2000.
Rotationally resolved A²Π← X²Π electronic absorption spectrum of cyanotriacetylene cation in the gas phase


T. Motylewski, H. Linnartz, O. Vaizert, J.P. Maier, G.A. Galazutdinov, F.A. Museev, J. Krelowski, G.A.H. Walker, and D.A. Bohlender
Astrophys. J., 531(1), 312–320, 2000.
Gas-phase electronic spectra of carbon-chain radicals compared with diffuse interstellar band observations


M. Tulej, J. Fulara, A. Sobolewski, M. Jungen, and J.P. Maier
J. Chem. Phys., 112(8), 3747–3753, 2000.
Electronic transitions of C₃⁻ above the photodetachment threshold


N.M. Lakin, O. Dopfer, B.J. Howard, and J.P. Maier
Mol. Phys., 98(2), 81–91, 2000.
The intermolecular potential of NH₄⁺–Ar II. Calculations and experimental measurements for the rotational structure of the ν₃ band


N.M. Lakin, O. Dopfer, M. Meuwly, B.J. Howard, and J.P. Maier
Mol. Phys., 98(2), 63–79, 2000.
The intermolecular potential of NH₄⁺–Ar I. Calculations for the internal rotor structure of the ν₃ band


Otto Dopfer, Rouslan V. Olkhov, and John P. Maier
J. Chem. Phys., 112(5), 2176–2186, 2000.
Microsolvation of the methyl cation in neon: infrared spectra and ab initio calculations of CH₃⁺–Ne and CH₃⁺–Ne₂




M. Tulej, F. Güthe, M. Schnaiter, M.V. Pachkov, D.A. Kirkwood, J.P. Maier, and G. Fischer
J. Phys. Chem. A, 103(48), 9712–9716, 1999.
Electronic spectra of the carbon chain anions C_2n−1H⁻ (n = 5–8) in the gas phase


Otto Dopfer, Rouslan V. Olkhov, and John P. Maier
J. Chem. Phys., 111(24), 10754–10757, 1999.
Infrared photodissociation spectra of the C–H stretch vibrations of C₆H₆⁺–Ar, C₆H₆⁺–N₂, and C₆H₆⁺–(CH₄)_1–4


David Pfluger, Wayne E. Sinclair, Harold Linnartz, and John P. Maier
Chem. Phys. Lett., 313(1–2), 171–178, 1999.
Rotationally resolved electronic absorption spectra of triacetylene cation in a supersonic jet


Wayne E. Sinclair, David Pfluger, and John P. Maier
J. Chem. Phys., 111(21), 9600–9608, 1999.
Rotationally resolved A²Π←X²Π electronic spectra of cyanodiacetylene and dicyanoacetylene cations


D.A. Kirkwood, M. Tulej, M.V. Pachkov, M. Schnaiter, F. Güthe, M. Grutter, M. Wyss, J.P. Maier, and G. Fischer
J. Chem. Phys., 111(20), 9280–9286, 1999.
Electronic spectra of carbon chain anions: C_2nH⁻ (n = 5–12)


Dorinel Verdes, Harold Linnartz, John P. Maier, Peter Botschwina, Rainer Oswald, Pavel Rosmus, and Peter J. Knowles
J. Chem. Phys., 111(18), 8400–8403, 1999.
Spectroscopic and theoretical characterization of linear centrosymmetric N≡N··H⁺··N≡N


Michel Grutter, Muriel Wyss, Evgueni Riaplov, John P. Maier, Sigrid D. Peyerimhoff, and Michael Hanrath
J. Chem. Phys., 111(16), 7397–7401, 1999.
Electronic absorption spectrum of linear C₆, C₈ and cyclic C₁₀, C₁₂ in neon matrices


Tomasz Motylewski, Olga Vaizert, Thomas F. Giesen, Harold Linnartz, and John P. Maier
J. Chem. Phys., 111(14), 6161–6163, 1999.
The ²Π_u ← X ¹Σ_g⁺ electronic spectrum of C₅ in the gas phase


Otto Dopfer, Doris Roth, and John P. Maier
Chem. Phys. Lett., 310, 201, 1999.
Infrared Spectrum and ab initio calculations of the He–HNH⁺ open-shell ionic complex


H. Linnartz, T. Motylewski, O. Vaizert, J.P. Maier, A.J. Apponi, M.C. McCarthy, C.A. Gottlieb, and P. Thaddeus
J. Mol. Spectrosc., 197(1), 1–11, 1999.
Electronic ground and excited state spectroscopy of C₆H and C₆D


Otto Dopfer, Doris Roth, Rouslan V. Olkhov, and John P. Maier
J. Chem. Phys., 110(24), 11911–11917, 1999.
Infrared Spectrum and ab initio calculations of the CH₃CNH⁺–H₂ ionic complex


John P. Maier
in "Encyclopedia of Spectroscopy and Spectrometry", Vol. 1, Eds.: J.C. Lindon, G.E. Trauter, and J.L. Holmes, pp. 2182–2189, Academic Press, 1999.
Mass Spectrometry/Methods and Instrumentation: Spectroscopy of Ions


C. Léonard, P. Rosmus, M. Wyss, and J.P. Maier
Phys. Chem. Chem. Phys., 1(8), 1827–1832, 1999.
Bound electronic states X ¹Σ⁺, a ³Π and A ¹Π of C₂B⁻


Otto Dopfer, Rouslan V. Olkhov, and John P. Maier
J. Phys. Chem., 103(16), 2982–2991, 1999.
Microsolvation of HN₂⁺ in Argon: Infrared Spectra and ab Initio Calculations of Ar_n–HN₂⁺ (n = 1–13)


Muriel Wyss, Michel Grutter, and John P. Maier
Chem. Phys. Lett., 304(1–2), 35–38, 1999.
Electronic spectra of long odd-number carbon chains C₁₇–C₂₁ and C₁₃⁻–C₂₁⁻


Michel Grutter, Muriel Wyss, and John P. Maier
J. Chem. Phys., 110(3), 1492–1496, 1999.
Electronic absorption spectra of C_2nH⁻, C_2n−1N⁻ (n = 4–7), and C_2n−1N (n = 3–7) chains in neon matrices


Wayne E. Sinclair, David Pfluger, Harold Linnartz, and John P. Maier
J. Chem. Phys., 110(1), 296–303, 1999.
Rotationally resolved à ²Π_g ← X ²Π_u electronic spectrum of triacetylene cation by frequency modulation absorption spectroscopy


John P. Maier
Chimia, 53(5), 212–213, 1999.
Spectroscopic Characterization of Carbon Chains, Ions, and Cluster Ions




Harold Linnartz, Thomas Speck, and John P. Maier
Chem. Phys. Lett., 288(2–4), 504–508, 1998.
High-resolution infrared spectrum of the ν₃ band in Ar–HCO⁺


Sergey A. Nizkorodov, Markus Meuwly, John P. Maier, Otto Dopfer, and Evan J. Bieske
J. Chem. Phys., 108(21), 8964–8974, 1998.
Infrared predissociation spectra of Ne_n–HN₂⁺ clusters (n = 1–5)


Markus Meuwly, John P. Maier, and Pavel Rosmus
J. Chem. Phys., 109(10), 3850–3855, 1998.
Vibrational states in the electronic ground state of the OH⁺–He and OH⁺–Ne complexes


Doris Roth, Sergey A. Nizkorodov, John P. Maier, and Otto Dopfer
J. Chem. Phys., 109(10), 3841–3849, 1998.
Intermolecular interaction in the OH⁺–He and OH⁺–Ne open-shell ionic complexes: Infrared predissociation spectra of the ν₁ and ν₁+ν_b vibrations


M. Grutter, M. Wyss, J. Fulara, and J.P. Maier
J. Phys. Chem. A, 102(48), 9785–9790, 1998.
Electronic absorption spectra of the polyacetylene chains HC_2nH, HC_2nH⁻, and HC_2n−1N⁻ (n = 6–12) in neon matrices


Harold Linnartz, Tomasz Motylewski, and John P. Maier
J. Chem. Phys., 109(10), 3819–3823, 1998.
The ²Π←X²Π electronic spectra of C₈H and C₁₀H in the gas phase


M. Tulej, D.A. Kirkwood, M. Pachkov, and J.P. Maier
Astrophys. J., 506(1), L69–L73,1998.
Gas-phase electronic transitions of carbon chain anions coinciding with diffuse interstellar bands


John P. Maier
J. Phys. Chem. A, 102(20), 3462–3469, 1998.
Electronic Spectroscopy of Carbon Chains


J. Fulara, M. Grutter, M. Wyss, and J.P. Maier
J. Phys. Chem. A, 102(20), 3459–3461, 1998.
A ²Σ⁺ ← X ²Π Electronic Absorption Spectrum of CCO⁻ in a Neon Matrix


Muriel Wyss, Michel Grutter, and John P. Maier
J. Phys. Chem. A, 102(46), 9106–9108, 1998.
Electronic Absorption Spectra of BC, BC⁻, BC₂, and BC₂⁻ in Neon Matrixes


Marek Tulej, David A. Kirkwood, Gianni Maccaferri, Otto Dopfer, and John P. Maier
Chem. Phys., 228(1–3), 293–299, 1998.
Electronic spectra of linear carbon chains


David A. Kirkwood, Harold Linnartz, Michel Grutter, Otto Dopfer, Tomasz Motylewski, Mikhail Pachkov, Marek Tulej, Muriel Wyss, and John P. Maier
Faraday Discuss., 109(Chemistry and Physics of Molecules and Grains in Space), 109–119, 1998.
Electronic spectra of linear carbon chains


O. Dopfer, S.A. Nizkorodov, R.V. Olkhov, J.P. Maier, and K. Harada
J. Phys. Chem. A, 102(49), 10017–10024, 1998.
Infrared Spectrum of the Ar–NH₂⁺ Ionic Complex


Otto Dopfer, Rouslan V. Olkhov, Doris Roth, and John P. Maier
Chem. Phys. Lett., 296(5–6), 585–591, 1998.
Intermolecular interaction in proton-bound dimers.: Infrared photodissociation spectra of Rg–HOCO⁺ (Rg=He, Ne, Ar) complexes