2006
DOI: 10.1063/1.2210480
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Local angular momentum–local impact parameter analysis: Derivation and properties of the fundamental identity, with applications to the F+H2, H+D2, and Cl+HCl chemical reactions

Abstract: The technique of local angular momentum-local impact parameter (LAM-LIP) analysis has recently been shown to provide valuable dynamical information on the angular scattering of chemical reactions under semiclassical conditions. The LAM-LIP technique exploits a nearside-farside (NF) decomposition of the scattering amplitude, which is assumed to be a Legendre partial wave series. In this paper, we derive the "fundamental NF LAM identity," which relates the full LAM to the NF LAMs (there is a similar identity for… Show more

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Cited by 44 publications
(82 citation statements)
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“…It is analogous to the fundamental identity 37 for NF DCSs. Thus if we plot σ (θ R ), σ (Q) (θ R ), and σ (P) (θ R ) versus θ R we can obtain information on the origin of interference effects in the full DCS.…”
Section: Qp Decomposition Of the Scattering Amplitude And Its Modimentioning
confidence: 88%
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“…It is analogous to the fundamental identity 37 for NF DCSs. Thus if we plot σ (θ R ), σ (Q) (θ R ), and σ (P) (θ R ) versus θ R we can obtain information on the origin of interference effects in the full DCS.…”
Section: Qp Decomposition Of the Scattering Amplitude And Its Modimentioning
confidence: 88%
“…(67) and (68) to test the physical effectiveness of the PWS NF decomposition as given by Eqs. (35)- (37) in Sec. III E. The DCSs for the subamplitudes and sub-subamplitudes introduced in this section are defined, as usual, as the modulus squared of the corresponding f • • (θ R ).…”
Section: F Nearside-farside Decomposition Of the Semiclassical Cam Rmentioning
confidence: 96%
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“…The corresponding N and F DCSs are given by With the help of eqs 2 and ( 8 ), we obtain Equation 9 is the Fundamental Identity for Full and NF DCSs and is exact. 25 …”
Section: Partial Wave Theorymentioning
confidence: 99%