Ábel Kálosi scite author profile

Ábel Kálosi

3Publications

89Citation Statements Received

69Citation Statements Given

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142

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Max Planck Institute for Nuclear Physics, Charles University, Columbia University

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Quantum-state–selective electron recombination studies suggest enhanced abundance of primordial HeH ⁺

Novotný

Wilhelm

Paul

et al. 2019

Science

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The epoch of first star formation in the early Universe was dominated by simple atomic and molecular species consisting mainly of two elements: hydrogen and helium. Gaining insight into this constitutive era requires a thorough understanding of molecular reactivity under primordial conditions. We used a cryogenic ion storage ring combined with a merged electron beam to measure state-specific rate coefficients of dissociative recombination, a process by which electrons destroy molecular ions. We found a pronounced decrease of the electron recombination rates for the lowest rotational states of the helium hydride ion (HeH+), compared with previous measurements at room temperature. The reduced destruction of cold HeH+ translates into an enhanced abundance of this primordial molecule at redshifts of first star and galaxy formation.

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Laser Probing of the Rotational Cooling of Molecular Ions by Electron Collisions

et al. 2022

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Flowing-afterglow study of electron-ion recombination of para–H3+ and ortho–H3+ ions at temperatures from 60 K to 300 K

Hejduk

Dohnal

Rubovič

et al. 2015

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Detailed measurements employing a combination of a cryogenic flowing afterglow with Langmuir probe (Cryo-FALP II) and a stationary afterglow with near-infrared absorption spectroscopy (SA-CRDS) show that binary electron recombination of para-H3(+) and ortho-H3(+) ions occurs with significantly different rate coefficients, (p)αbin and (o)αbin, especially at very low temperatures. The measurements cover temperatures from 60 K to 300 K. At the lowest temperature of 60 K, recombination of para-H3(+) is at least three times faster than that of ortho-H3(+) ((p)αbin=(1.8±0.4)×10(-7) cm(3) s(-1) vs. (o)αbin=(0-0 (+5))×10(-8) cm(3) s(-1)).

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Ábel Kálosi

Quantum-state–selective electron recombination studies suggest enhanced abundance of primordial HeH ⁺

Laser Probing of the Rotational Cooling of Molecular Ions by Electron Collisions

Flowing-afterglow study of electron-ion recombination of para–H3+ and ortho–H3+ ions at temperatures from 60 K to 300 K

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Ábel Kálosi

Quantum-state–selective electron recombination studies suggest enhanced abundance of primordial HeH +

Laser Probing of the Rotational Cooling of Molecular Ions by Electron Collisions

Flowing-afterglow study of electron-ion recombination of para–H3+ and ortho–H3+ ions at temperatures from 60 K to 300 K

Contact Info

Product

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Quantum-state–selective electron recombination studies suggest enhanced abundance of primordial HeH ⁺