4.7 Article

Strongly aligned molecules inside helium droplets in the near-adiabatic regime

Journal

JOURNAL OF CHEMICAL PHYSICS
Volume 147, Issue 1, Pages -

Publisher

AMER INST PHYSICS
DOI: 10.1063/1.4983703

Keywords

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Funding

  1. European Research Council-AdG [320459]
  2. Villum Foundation
  3. Austrian Science Fund (FWF) [P29902] Funding Source: Austrian Science Fund (FWF)
  4. European Research Council (ERC) [320459] Funding Source: European Research Council (ERC)

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Iodine (I-2) molecules embedded in He nanodroplets are aligned by a 160 ps long laser pulse. The highest degree of alignment, occurring at the peak of the pulse and quantified by < cos(2)theta(2D)>, is measured as a function of the laser intensity. The results are well described by < cos(2)theta(2D)> calculated for a gas of isolated molecules each with an effective rotational constant of 0.6 times the gas-phase value and at a temperature of 0.4 K. Theoretical analysis using the angulon quasiparticle to describe rotating molecules in superfluid helium rationalizes why the alignment mechanism is similar to that of isolated molecules with an effective rotational constant. A major advantage of molecules in He droplets is that their 0.4 K temperature leads to stronger alignment than what can generally be achieved for gas phase molecules-here demonstrated by a direct comparison of the droplet results to measurements on a similar to 1 K supersonic beam of isolated molecules. This point is further illustrated for a more complex system by measurements on 1,4-diiodobenzene and 1,4-dibromobenzene. For all three molecular species studied, the highest values of < cos(2)theta(2D)> achieved in He droplets exceed 0.96. Published by AIP Publishing.

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