Manoj Das scite author profile

We report both experimental and theoretical differential and integral excitation cross sections of atomic oxygen corresponding to the 2s 2 2p 4 3 P → 3s 3 S (130.4 nm), 2s 2 2p 4 3 P → 3d 3 D (102.7 nm), 2s 2 2p 4 3 P → 3s 3 D (98.9 nm) and 2s 2 2p 4 3 P → 3s 3 P (87.8 nm) transitions at 30, 50, and 100 eV electronimpact energies. Experimental measurements have been made in the angular range from 0 • to 25 • with a conventional electrostatic electron energy-loss spectrometer. The atomic O differential cross sections (DCSs) were put on an absolute scale by normalization to the O 2 DCS values of Johnson and Kanik (2001). Extrapolation of the measured results to larger angles was performed using theoretical calculations as a guide, and integral cross sections were derived. Theoretical calculations based on the R-matrix method, along with other available experimental data, have been compared with the current experimental results.

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Charge-transfer cross sections in collisions ofBeq+(q=1–4)and
Das¹,
Purkait
²
,
Mandal
³

1998
Phys. Rev. A

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State-selective electron capture in the interactions of partially stripped ions of beryllium and boron with atomic hydrogen in the ground state

Das¹,

Purkait²,

Mandal

1998

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

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The Coulomb-Born approximation has been employed to study charge transfer cross sections in the case of collisions of Be q+ (q = 1-3) and B q+ (q = 1-4) with atomic hydrogen in its ground state, respectively, within the energy range of 25-200 keV amu −1 . The interaction of the active electron with the incoming projectile ion has been approximated by a model potential. Cross sections for capture into different sub-shells have been given in tabular form. Computed total capture cross sections compare favourably with existing available results.

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Measurement of fluorescence emission spectrum of few strongly driven atoms using an optical nanofiber

Das¹,

Shirasaki²,

Nayak³

et al. 2010

Opt. Express

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We show that the fluorescence emission spectrum of few atoms can be measured by using an optical nanofiber combined with the optical heterodyne and photon correlation spectroscopy. The observed fluorescence spectrum of the atoms near the nanofiber shows negligible effects of the atom-surface interaction and agrees well with the Mollow triplet spectrum of free-space atoms at high excitation intensity.

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State-selective electron capture by multicharged ions of carbon, nitrogen, and oxygen from ground-state atomic hydrogen

1999

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Charge-transfer cross sections into different subshells of C qϩ , N qϩ , and O qϩ (qϭ1 -5) from atomic hydrogen in the ground state have been calculated in the framework of the boundary corrected continuum intermediate-state approximation in the energy range of 40-200 keV/amu. Interactions of the active electron with the projectile ion have been approximated by a model potential containing both a long-range Coulomb potential part and a short-range part. Total cross-section results for all the ions are in reasonable agreement with available experimental results. However, oscillatory structure of charge-state dependence of total cross sections has not been found in our calculation.

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Manoj Das

Electron-impact studies of atomic oxygen: I. Differential and integral cross sections; experiment and theory

Charge-transfer cross sections in collisions ofBeq+(q=1–4)and
Das¹,
Purkait
²
,
Mandal
³

1998
Phys. Rev. A

State-selective electron capture in the interactions of partially stripped ions of beryllium and boron with atomic hydrogen in the ground state

Measurement of fluorescence emission spectrum of few strongly driven atoms using an optical nanofiber

State-selective electron capture by multicharged ions of carbon, nitrogen, and oxygen from ground-state atomic hydrogen

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About

Manoj Das

Electron-impact studies of atomic oxygen: I. Differential and integral cross sections; experiment and theory

Charge-transfer cross sections in collisions ofBeq+(q=1–4)andDas1, Purkait2, Mandal3 1998Phys. Rev. A

State-selective electron capture in the interactions of partially stripped ions of beryllium and boron with atomic hydrogen in the ground state

Measurement of fluorescence emission spectrum of few strongly driven atoms using an optical nanofiber

State-selective electron capture by multicharged ions of carbon, nitrogen, and oxygen from ground-state atomic hydrogen

Contact Info

Product

Resources

About

Charge-transfer cross sections in collisions ofBeq+(q=1–4)and
Das¹,
Purkait
²
,
Mandal
³

1998
Phys. Rev. A