Shyamal Chatterjee scite author profile

We report the energy and angular distribution of absolute double differential cross sections (DDCSs) of ejected electrons in collisions of 8 keV projectile electrons with molecular hydrogen. The ejected electrons with energy between 1 eV and 400 eV and ejection angles between 30° and 150° are detected. The measured data are compared with the theoretical calculations based on two-effective centre (TEC) model. The first-order interference is derived from the energy distribution of DDCS and the resulting ratio spectra (H2 to 2H) exhibit oscillating behaviour. The signature of first-order interference is also demonstrated in the DDCS spectra as a function of the ejection angle. We have shown that the constructive interference prevails in soft- and binary-collision regions. The single differential cross sections (SDCS) are deduced by integrating the DDCS over the solid angle as well as ejection energy. We demonstrate that the SDCS and corresponding ratio spectra also preserve the signature of interference.

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Young-type interference effect on angular distribution of secondary electrons emitted fromH2in collisions with fast electrons

Chatterjee

Misra

Kelkar

et al. 2008

Phys. Rev. A

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Ion beam engineered hydrogen titanate nanotubes for superior energy storage application

Das

Ratha

et al. 2021

Electrochimica Acta

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Subshell-selective x-ray studies of radiative recombination ofU92+ions with electrons for very low relative energies

Banaś¹,

Pajek²,

Surzhykov³

et al. 2015

Phys. Rev. A

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Radiative recombination (RR) into the K shell and L subshells of U 92+ ions interacting with cooling electrons has been studied in an x-ray RR experiment at the electron cooler of the Experimental Storage Ring at GSI. The measured radiative recombination rate coefficients for electron-ion relative energies in the range 0-1000 meV demonstrate the importance of relativistic effects. The observed asymmetry of the measured K-RR x-ray emission with respect to the cooling energy, i.e., zero average relative velocity (v rel = 0), are explained by fully relativistic RR calculations. With our new approach, we show that the study of the angular distribution of RR photons for different relative energies opens new perspectives for detailed understanding of the RR of ions with cooling electrons in cold magnetized plasma.

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