Electron momentum spectroscopy of atoms, molecules, and thin films

Неудачин, В.Г.; Popov, Yuri V.; Smirnov, Yurii F.

doi:10.3367/ufnr.0169.199910c.1111

Cited by 21 publications

(19 citation statements)

References 143 publications

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“…has been calculated with the non-relativistic wave functions entering formula (5) and neglecting the terms of the order ε/m, and F is given by (9). This expression for F and energy-momentum conservation equation (12) are the same as in the case of hydrogen atom with the replacement of the ionization potential of hydrogen atom |ε| by the single ionization potental of helium atom |ε i |.…”

Section: Compton Scattering By Helium Atomsmentioning

confidence: 99%

Compton scattering from hydrogen and helium atoms

Gnilozub

Galstyan

Popov

et al. 2019

J. Phys. B: At. Mol. Opt. Phys.

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We develop an approach to describing coherent Compton scattering of photons in the keV energy range from hydrogen and helium atoms based on a relativistic version of the AA-approximation within the standard perturbative S-matrix formalism. The resulting formulas for the cross section take into account the effects of the electron boundness and correctly reproduce the behavior of the cross section at large photon energies, where it goes to Thomson formula, which coincides with the Klein-Nishina-Tamm formula for the cross section in the non-relativistic limit.

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Section: Compton Scattering By Helium Atomsmentioning

confidence: 99%

Compton scattering from hydrogen and helium atoms

Gnilozub

Galstyan

Popov

et al. 2019

J. Phys. B: At. Mol. Opt. Phys.

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show abstract

“…Besides those cited above, there are a number of reviews devoted to the specific topic of electron momentum spectroscopy that have been published in the literature. These are book by Weigold and McCar thy [14] and review by Coplan et al [15], in addition to review by Neudachin et al [7] mentioned earlier. However, in most of these works, the case of (e,2e) reactions is considered, with a huge experimental database related to the latter and collected during the 1960s to 1980s.…”

Section: Introductionmentioning

confidence: 95%

“…In the integrand, only the exponentially oscillating term is kept that contains the small momenta p 3 and q = p s + p e -p 0 . It is the EMS geometry that ensures a small value of the momentum q at large p 0 , p s , and p e : the plane angles θ s and θ e of the momenta p s and p e with respect to p 0 are approxi mately equal to ϯ45°, and E s ~ E e ~ E 0 /2 (for more detail, see [7]).…”

Section: Two Fast Particles In the Final State 21 (E3e) Electron Mmentioning

confidence: 99%

“…If, for definiteness, one talks of multielectron target ionization by fast electrons (with energies of a few keV), then there are the so called dipole (e,3e) reactions, in which an incoming electron transfers a small amount of the momentum and energy to an atom and, therefore, goes out with almost unchanged velocity, and quasi elastic (e,3e) reactions (or electron momentum spectroscopy (EMS)), when there are two fast electrons in the final state with nearly identical energies and angles. The differential cross sections of (e,3e) processes with completely measured angles and energies of all three final electrons are extremely small [5,6], especially in the case of EMS [7]. Therefore, one resorts to the measurements of cross sections of lower multiplicity, say, (e,3-1e), when no slowly moving electron is detected [8].…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, one resorts to the measurements of cross sections of lower multiplicity, say, (e,3-1e), when no slowly moving electron is detected [8]. Although (e,3e) experiments in quasi elastic kinematics are rare nowadays, they are quite informative in effectively discerning a degree of elec tron pair correlations in the multiparticle wave func tion of a target [7,8].…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Multiple ionization processes involving fast charged particles

et al. 2010

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Quasi-elastic knockout of pions and kaons from nucleons by high-energy electrons and quark microscopy of “soft” meson degrees of freedom in the nucleon

Neudatchin¹,

Obukhovsky²,

Sviridova³

et al. 2004

Nuclear Physics A

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Electro-production of pions and kaons at the kinematics of quasi-elastic knockout (which is well known in the physics of atomic nucleus and corresponds to the t-pole diagram) is proposed for obtaining their momentum distribution (MD) in various channels of virtual decay N → B +π, B = N , ∆, N * , N * * , and N → Y +K, Y = Λ, Σ. It is a powerful tool for investigation of a quark microscopic picture of the meson cloud in the nucleon. A model of scalar qq ( 3 P 0 ) fluctuation in the non-trivial QCD vacuum is used to calculate pion and kaon momentum distributions (MD) in these channels. 1 In the constituent quark model the pion charge radius includes contributions both quarks and the ρ-meson pole (the vector meson dominance model): [< r 2 π > ch ] 1/2 = [3b 2 π /4 + 6/m 2 ρ ] 1/2 ≃ 0.68 fm.

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Electron momentum spectroscopy of atoms, molecules, and thin films

Cited by 21 publications

References 143 publications

Compton scattering from hydrogen and helium atoms

Compton scattering from hydrogen and helium atoms

Multiple ionization processes involving fast charged particles

Quasi-elastic knockout of pions and kaons from nucleons by high-energy electrons and quark microscopy of “soft” meson degrees of freedom in the nucleon

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