Evidence for subthermal rotational populations in stored molecular ions through state-dependent dissociative recombination

L Lammich; Daniel Strasser; H Kreckel; M Lange; HB Pedersen; S Altevogt; V Andrianarijaona; Henrik Buhr; Oded Heber; P Witte; Dirk Schwalm; A Wolf; Daniel Zajfman

doi:10.1103/PhysRevLett.91.143201

Evidence for subthermal rotational populations in stored molecular ions through state-dependent dissociative recombination

L Lammich, Daniel Strasser, H Kreckel, M Lange, HB Pedersen, S Altevogt, V Andrianarijaona, Henrik Buhr, Oded Heber, P Witte, Dirk Schwalm, A Wolf, Daniel Zajfman

Research output: Contribution to journal › Article › peer-review

32 Citations (Scopus)

Abstract

We demonstrate that the dissociative recombination of [Formula presented] with low-energy electrons depends on the rotational energy of the molecular ion such that highly excited ions have a larger rate coefficient than colder ones. Observations on an ion beam continuously interacting with electrons at low relative velocity indicate that excited rotational levels are preferentially depleted which, in competition with radiative heating due to blackbody radiation, provides an opportunity for controlling the rotational temperature of stored molecules.

Original language	English
Journal	Physical review letters
Volume	91
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevLett.91.143201
Publication status	Published - 2003

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.91.143201

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Lammich, L., Strasser, D., Kreckel, H., Lange, M., Pedersen, HB., Altevogt, S., Andrianarijaona, V., Buhr, H., Heber, O., Witte, P., Schwalm, D., Wolf, A., & Zajfman, D. (2003). Evidence for subthermal rotational populations in stored molecular ions through state-dependent dissociative recombination. Physical review letters, 91(14). https://doi.org/10.1103/PhysRevLett.91.143201

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title = "Evidence for subthermal rotational populations in stored molecular ions through state-dependent dissociative recombination",

abstract = "We demonstrate that the dissociative recombination of [Formula presented] with low-energy electrons depends on the rotational energy of the molecular ion such that highly excited ions have a larger rate coefficient than colder ones. Observations on an ion beam continuously interacting with electrons at low relative velocity indicate that excited rotational levels are preferentially depleted which, in competition with radiative heating due to blackbody radiation, provides an opportunity for controlling the rotational temperature of stored molecules.",

author = "L Lammich and Daniel Strasser and H Kreckel and M Lange and HB Pedersen and S Altevogt and V Andrianarijaona and Henrik Buhr and Oded Heber and P Witte and Dirk Schwalm and A Wolf and Daniel Zajfman",

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doi = "10.1103/PhysRevLett.91.143201",

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journal = "Physical review letters",

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Lammich, L, Strasser, D, Kreckel, H, Lange, M, Pedersen, HB, Altevogt, S, Andrianarijaona, V, Buhr, H, Heber, O, Witte, P, Schwalm, D, Wolf, A & Zajfman, D 2003, 'Evidence for subthermal rotational populations in stored molecular ions through state-dependent dissociative recombination', Physical review letters, vol. 91, no. 14. https://doi.org/10.1103/PhysRevLett.91.143201

TY - JOUR

T1 - Evidence for subthermal rotational populations in stored molecular ions through state-dependent dissociative recombination

AU - Lammich, L

AU - Strasser, Daniel

AU - Kreckel, H

AU - Lange, M

AU - Pedersen, HB

AU - Altevogt, S

AU - Andrianarijaona, V

AU - Buhr, Henrik

AU - Heber, Oded

AU - Witte, P

AU - Schwalm, Dirk

AU - Wolf, A

AU - Zajfman, Daniel

PY - 2003

Y1 - 2003

N2 - We demonstrate that the dissociative recombination of [Formula presented] with low-energy electrons depends on the rotational energy of the molecular ion such that highly excited ions have a larger rate coefficient than colder ones. Observations on an ion beam continuously interacting with electrons at low relative velocity indicate that excited rotational levels are preferentially depleted which, in competition with radiative heating due to blackbody radiation, provides an opportunity for controlling the rotational temperature of stored molecules.

AB - We demonstrate that the dissociative recombination of [Formula presented] with low-energy electrons depends on the rotational energy of the molecular ion such that highly excited ions have a larger rate coefficient than colder ones. Observations on an ion beam continuously interacting with electrons at low relative velocity indicate that excited rotational levels are preferentially depleted which, in competition with radiative heating due to blackbody radiation, provides an opportunity for controlling the rotational temperature of stored molecules.

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U2 - 10.1103/PhysRevLett.91.143201

DO - 10.1103/PhysRevLett.91.143201

M3 - Article

SN - 0031-9007

VL - 91

JO - Physical review letters

JF - Physical review letters

IS - 14

ER -

Evidence for subthermal rotational populations in stored molecular ions through state-dependent dissociative recombination

Abstract

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