On the accuracy of thermionic electron emission models. I. Electron detachment from SF6−

Abstract: Detailed statistical rate calculations combined with electron capture theory and kinetic modeling for the electron attachment to SF 6 and detachment from SF 6 − ͓Troe et al., J. Chem. Phys. 127, 244303 ͑2007͔͒ are used to test thermionic electron emission models. A new method to calculate the specific detachment rate constants k det ͑E͒ and the electron energy distributions f͑E , ͒ as functions of the total energy E of the anion and the energy of the emitted electrons is presented, which is computationally sim… Show more

“…We, therefore, recommend the use of eqn (11) and (23) for l = 0 and n = 4 and 6, respectively. For l = 1-4 on the other hand, eqn (19) is recommended with g l (k) defined by eqn (18) and H l (k) taken from eqn (21) with the coefficients given in Table 1 and 2 for n = 4 and n = 6, respectively. The given approximate analytical expressions are of considerable practical use.…”

“…with a fitting monotonically-increasing function H c (k) that vanishes at k = k (1/2) c and guaranties the correct asymptotics g c (k)| kc1 -1. (The function g c (k) in eqn (18) is equivalent to the function G c (k) introduced in the Appendix of ref. 3 provided that the misprinted term 0.5 is removed from the r.h.s.…”

“…of the expression that defines G c (k)). With expression (18), the condition in eqn (5) is automatically satisfied, and the only remaining problem is a satisfactory matching of expressions in eqn (14) and (18) through a certain function P app c at an intermediate point k = k* c . We have found that the matching is achieved by piece-wise definition of P app c (k) whose explicit form,…”

Threshold behavior and analytical fitting of partial wave capture probabilities for attractive R−n potentials

“…We, therefore, recommend the use of eqn (11) and (23) for l = 0 and n = 4 and 6, respectively. For l = 1-4 on the other hand, eqn (19) is recommended with g l (k) defined by eqn (18) and H l (k) taken from eqn (21) with the coefficients given in Table 1 and 2 for n = 4 and n = 6, respectively. The given approximate analytical expressions are of considerable practical use.…”

“…with a fitting monotonically-increasing function H c (k) that vanishes at k = k (1/2) c and guaranties the correct asymptotics g c (k)| kc1 -1. (The function g c (k) in eqn (18) is equivalent to the function G c (k) introduced in the Appendix of ref. 3 provided that the misprinted term 0.5 is removed from the r.h.s.…”

“…of the expression that defines G c (k)). With expression (18), the condition in eqn (5) is automatically satisfied, and the only remaining problem is a satisfactory matching of expressions in eqn (14) and (18) through a certain function P app c at an intermediate point k = k* c . We have found that the matching is achieved by piece-wise definition of P app c (k) whose explicit form,…”

Threshold behavior and analytical fitting of partial wave capture probabilities for attractive R−n potentials

“…A separation into P IVR el and P VEX el would only be essential when attachment and detachment properties are to be linked by detailed balancing. 18 Using the experimental data for DEA to CF 3 Br as first example, our article hopes to motivate further tests of the validity of Eq. (1.5).…”

Analysis by kinetic modeling of the temperature dependence of thermal electron attachment to CF3Br

“…Likewise, attachment cross sections and dissociative lifetimes of energy-selected anions are coupled by detailed balancing and need to be internally consistent. [6][7][8][9] Having demonstrated a combined experimental/ theoretical analysis of electron attachment/detachment in the SF 6 / SF 6 − system, it appears attractive to treat electron attachment to the much larger molecule C 60 in a similar fashion. A series of interesting differences are expected.…”

Experimental and modeling study of thermal rate coefficients and cross sections for electron attachment to C60