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Amy S Mullin

Showing results (11-20 of 34) with videos related to

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The Journal of Physical Chemistry. A|December 17, 2009
Full state-resolved energy gain profiles of CO2 (J = 2-80) from collisions of highly vibrationally excited molecules. 1. Relaxation of pyrazine (E = 37900 cm(-1))Daniel K Havey, Juan Du, Qingnan Liu, et al.
The Journal of Physical Chemistry. A|August 30, 2008
Dynamics of weak and strong collisions: highly vibrationally excited pyrazine (E = 37900 cm(-1)) with DClJuan Du, Liwei Yuan, Shizuka Hsieh, et al.
The Journal of Chemical Physics|December 27, 2005
State-resolved collisional quenching of vibrationally excited pyrazine (E(vib) = 37,900 cm(-1)) by D35Cl(v = 0)Ziman Li, Ekaterina Korobkova, Kathryn Werner, et al.
Optics Express|July 1, 2014
Performance of a high-resolution mid-IR optical-parametric-oscillator transient absorption spectrometerGeraldine O Echebiri, Matthew D Smarte, Wendell W Walters, et al.
The Journal of Physical Chemistry. A|July 13, 2006
Trajectory study of supercollision relaxation in highly vibrationally excited pyrazine and CO2Ziman Li, Rebecca Sansom, Sara Bonella, et al.
The Journal of Physical Chemistry. A|December 7, 2007
Collisions of highly vibrationally excited pyrazine (E vib = 37,900 cm(-1)) with HOD: state-resolved probing of strong and weak collisionsDaniel K Havey, Qingnan Liu, Ziman Li, et al.
The Journal of Physical Chemistry. A|March 3, 2006
Relaxation dynamics of highly vibrationally excited picoline isomers (E(vib) = 38 300 cm(-1)) with CO2: the role of state density in impulsive collisionsElisa M Miller, Liat Murat, Nicholas Bennette, et al.
The Journal of Physical Chemistry. A|September 26, 2013
Full state-resolved energy gain profiles of CO2 from collisions with highly vibrationally excited molecules. II. Energy-dependent pyrazine (E = 32,700 and 37,900 cm(-1)) relaxationJuan Du, Nicholas A Sassin, Daniel K Havey, et al.
Chemphyschem : a European Journal of Chemical Physics and Physical Chemistry|October 7, 2016
Impulsive Collision Dynamics of CO Super Rotors from an Optical CentrifugeMatthew J Murray, Hannah M Ogden, Carlos Toro, et al.
Faraday Discussions|May 20, 2024
Transient IR spectroscopy of optically centrifuged CO<sub>2</sub> (R186-R282) and collision dynamics for the <i>J</i> = 244-282 statesMichael E Ritter, Simone A DeSouza, Hannah M Ogden, et al.
Pageof 4

Showing results (11-20 of 34) with videos related to

Sort By:
Pageof 4
The Journal of Physical Chemistry. A|December 17, 2009
Full state-resolved energy gain profiles of CO2 (J = 2-80) from collisions of highly vibrationally excited molecules. 1. Relaxation of pyrazine (E = 37900 cm(-1))Daniel K Havey, Juan Du, Qingnan Liu, et al.
The Journal of Physical Chemistry. A|August 30, 2008
Dynamics of weak and strong collisions: highly vibrationally excited pyrazine (E = 37900 cm(-1)) with DClJuan Du, Liwei Yuan, Shizuka Hsieh, et al.
The Journal of Chemical Physics|December 27, 2005
State-resolved collisional quenching of vibrationally excited pyrazine (E(vib) = 37,900 cm(-1)) by D35Cl(v = 0)Ziman Li, Ekaterina Korobkova, Kathryn Werner, et al.
Optics Express|July 1, 2014
Performance of a high-resolution mid-IR optical-parametric-oscillator transient absorption spectrometerGeraldine O Echebiri, Matthew D Smarte, Wendell W Walters, et al.
The Journal of Physical Chemistry. A|July 13, 2006
Trajectory study of supercollision relaxation in highly vibrationally excited pyrazine and CO2Ziman Li, Rebecca Sansom, Sara Bonella, et al.
The Journal of Physical Chemistry. A|December 7, 2007
Collisions of highly vibrationally excited pyrazine (E vib = 37,900 cm(-1)) with HOD: state-resolved probing of strong and weak collisionsDaniel K Havey, Qingnan Liu, Ziman Li, et al.
The Journal of Physical Chemistry. A|March 3, 2006
Relaxation dynamics of highly vibrationally excited picoline isomers (E(vib) = 38 300 cm(-1)) with CO2: the role of state density in impulsive collisionsElisa M Miller, Liat Murat, Nicholas Bennette, et al.
The Journal of Physical Chemistry. A|September 26, 2013
Full state-resolved energy gain profiles of CO2 from collisions with highly vibrationally excited molecules. II. Energy-dependent pyrazine (E = 32,700 and 37,900 cm(-1)) relaxationJuan Du, Nicholas A Sassin, Daniel K Havey, et al.
Chemphyschem : a European Journal of Chemical Physics and Physical Chemistry|October 7, 2016
Impulsive Collision Dynamics of CO Super Rotors from an Optical CentrifugeMatthew J Murray, Hannah M Ogden, Carlos Toro, et al.
Faraday Discussions|May 20, 2024
Transient IR spectroscopy of optically centrifuged CO<sub>2</sub> (R186-R282) and collision dynamics for the <i>J</i> = 244-282 statesMichael E Ritter, Simone A DeSouza, Hannah M Ogden, et al.
Pageof 4