A comprehensive study of cold protonated tyramine: UV photodissociation experiments and ab initio calculations

2015 ◽  
Vol 17 (39) ◽  
pp. 25854-25862 ◽  
Author(s):  
Michel Broquier ◽  
Satchin Soorkia ◽  
Gilles Grégoire
Keyword(s):  
Excited State ◽  
Ab Initio Calculations ◽  
Ab Initio ◽  
Laser Spectroscopy ◽  
Comprehensive Study

Excited state properties of cold protonated ions are revealed by a combination of laser spectroscopy and ab initio calculations.

Ammonia oxide. I. Geometry and stability

1976 ◽  
Vol 29 (2) ◽  
pp. 231 ◽  
Author(s):  
BT Hart
Keyword(s):  
Excited State ◽  
Ab Initio Calculations ◽  
Ab Initio ◽  
Bond Length ◽  
Ground State ◽  
Tautomeric Form ◽  
Potential Curve ◽  
Repulsive Potential ◽  
Means Of Production

Ab initio calculations, utilizing Gaussian lobe functions, are reported for the molecule ammonia oxide, NH3O. Results indicate that ammonia oxide has a bound ground state, an abnormally long NO bond length (169 pm) and is 125.9 kJ mol-1 less stable than the tautomeric form hydroxylamine, NH2OH. Possible means of production of the molecule are discussed. The 3E excited state of ammonia oxide was found to have a repulsive potential curve. Possible reasons for this instability are advanced.

Ab Initio Calculations on the (1)2Δ Excited State and Low-Lying Quartet States of Ga·N2:  Simulation of Its LIF Spectrum

2001 ◽  
Vol 105 (41) ◽  
pp. 9533-9542 ◽  
Author(s):  
Edmond P. F. Lee ◽  
John M. Dyke ◽  
Daniel K. W. Mok ◽  
Robert P. Claridge ◽  
Foo-Tim Chau
Keyword(s):  
Excited State ◽  
Ab Initio Calculations ◽  
Ab Initio

Polarization Gaussian p Functions for the Beryllium Atom: Ab initio Calculations on BeH2 and BeH+

1975 ◽  
Vol 53 (22) ◽  
pp. 2512-2516 ◽  
Author(s):  
P. G. Mezey ◽  
I. G. Csizmadia ◽  
O. P. Strausz
Keyword(s):  
Excited State ◽  
Ab Initio Calculations ◽  
Ab Initio ◽  
Ground State ◽  
Optimization Procedure ◽  
Energy Functional ◽  
Basis Set ◽  
Negative Ion ◽  
Gaussian Basis Set ◽  
Orbital Exponents

A set of Gaussian p orbital exponents was obtained by optimizing a (9s5p) Gaussian basis set for an excited state of the beryllium atom and the ground state of the beryllium negative ion. In the optimization procedure the method of conjugate gradients was applied for the energy functional. The optimum (9s5p) basis set was tested on the BeH2 and BeH+ structures.

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