Differential cross section for the H+D→HD(v'=1, j'=2,6, 10) +D reaction as a function of collision energy (original) (raw)

The Journal of Chemical Physics, 2007

Forward scattering in the H+D[sub 2]→HD+D reaction: Comparison between experiment and theoretical predictions

Brian Bean

The Journal of Chemical Physics, 2001

Differential cross sections for H + D2→ HD(v′ = 2, j′ = 0,3,6,9) + D at center-of-mass collision energies of 1.25, 1.61, and 1.97 eV

Physical Chemistry Chemical Physics, 2011

Forward scattering in the H+D2→HD+D reaction: Comparison between experiment and theoretical predictions

Jesús Gabriel Sotillet Castillo

The Journal of Chemical Physics, 2001

Measurement of the state-specific differential cross section for the H+D2→HD(vʹ=4, Jʹ=3)+D reaction at a collision energy of 2.2 eV

The Journal of Chemical Physics, 1995

Multiple scattering mechanisms causing interference effects in the differential cross sections of H + D2 → HD(v' = 4, j') + D at 3.26 eV collision energy

The Journal of chemical physics, 2016

Collision energy dependence of the HD(ν[sup ʹ]=2) product rotational distribution of the H+D[sub 2] reaction in the range 1.30–1.89 eV

The Journal of Chemical Physics, 2004

Collision energy dependence of the HD(nu'=2) product rotational distribution of the H+D2 reaction in the range 1.30-1.89 eV

Chem Phys, 2004

Measurement of the state‐specific differential cross section for the H+ D→ HD (v′= 4, J′= 3)+ D reaction at a collision energy of 2.2 eV

Richard Tuckett

The Journal of chemical …, 1995

Collision-energy dependence of HD(ν[sup ʹ]=1,j[sup ʹ]) product rotational distributions for the H+D[sub 2] reaction

The Journal of Chemical Physics, 2005

Differential cross sections for H+D2→HD(v′=1, J′=1,5,8)+D at 1.7 eV

Brian Bean

Journal of Chemical Physics, 1999

Measurement of the HD(v[sup ʹ]=2,J[sup ʹ]=3) product differential cross section for the H+D[sub 2] exchange reaction at 1.55±0.05 eV using the photoloc technique

Brian Bean

The Journal of Chemical Physics, 1999

Quantum wave packet study of the H+HBr→H2+Br reaction

Aditya Prasad Panda

Chemical Physics Letters, 2007

Differential cross sections for H+D2→HD (v′=2, J′=0,3,5)+D at 1.55 eV

Richard N Zare

The Journal of Chemical Physics, 1999

Evidence for Scattering Resonances in the H+D2 Reaction

Angewandte Chemie International Edition, 2000

Differential cross sections for H+D[sub 2]→HD (v[sup ʹ]=2, J[sup ʹ]=0,3,5)+D at 1.55 eV

The Journal of Chemical Physics, 1999

Corroboration of Theory for H + D 2 → D + HD ( v ′ = 3, j ′ = 0) Reactive Scattering Dynamics †

The Journal of Physical Chemistry A, 2008

Integral rate constant measurements of the reaction H + D2 → HD (v′ = 1, j′) + D at high collision energies

Chemical Physics Letters, 1993

H(2s)formation inH+-H and H-H collisions

Raúl Mayo

Physical Review A, 1980

Study of theD++H2collision in the small-angle, low-keV energy range

Howard Hayden

Physical Review A, 1981

Disagreement between theory and experiment in the simplest chemical reaction: Collision energy dependent rotational distributions for H+ D~ 2→ HD (nu'= 3, j') …

Journal of Chemical …, 2004

Reaction cross sections for the H+ D-2 (nu= 0, 1) system for collision energies up to 2.5 eV: A multiconfiguration time-dependent Hartree wave-packet propagation study

Hans-dieter Meyer

On the dynamics of the H++D2(v=0,j=0)→HD+D+ reaction: A comparison between theory and experiment

Octavio Roncero

Journal of Chemical Physics, 2008

Seemingly Anomalous Angular Distributions in H + D2 Reactive Scattering

Science, 2012

Measurement of Br photofragment orientation and alignment from HBr photodissociation: Production of highly spin-polarized hydrogen atoms

Peter Rakitzis

The Journal of Chemical Physics, 2004

Measurement of the cross section for H+D[sub 2]→HD(vʹ=3,jʹ=0)+D as a function of angle and energy

The Journal of Chemical Physics, 2003

Vibrationally inelastic H + D2 collisions are forward-scattered

Proceedings of the National Academy of Sciences, 2008

Reaction cross sections for the H+ D2 (ν= 0, 1) system for collision energies up to 2.5 eV: A multiconfiguration time-dependent Hartree wave-packet propagation study

Hans-dieter Meyer

H+D2 reaction dynamics. Determination of the product state distributions at a collision energy of 1.3 eV

Ernesto Marinero

The Journal of Chemical Physics, 1984

Niyazi Bulut, Octavio Roncero

On the dynamics of the H[sup +]+D sub 2→HD+D[sup +] reaction: A comparison between theory and experiment

The Journal of Chemical Physics, 2008

State-resolved differential cross sections for the H+D2 (v=0, j) → HD(v′, j′)+D reaction from quasiclassical trajectory calculations

Olga Puentedura

Chemical Physics Letters, 1992

A comparative study of the low energy HD+o-/p-H2 rotational excitation/de-excitation collisions and elastic scattering

Dennis Guster

AIP Advances, 2012

The D+H2(v=1,j)→HD(v’,j’)+H reaction. A detailed quasiclassical trajectory study

Javier Aoiz

The Journal of Chemical Physics, 1994

Disagreement between theory and experiment in the simplest chemical reaction: Collision energy dependent rotational distributions for H+D[sub 2]→HD(ν[sup ʹ]=3,j[sup ʹ])+D

The Journal of Chemical Physics, 2004

A time-dependent wave packet quantum scattering study of the reaction HD[sup +](v=0–3;j[sub 0]=1)+He→HeH[sup +](HeD[sup +])+D(H)

Ruifeng Lu

The Journal of Chemical Physics, 2007