Shapes and vorticities of superfluid helium nanodroplets.

Gomez, L. F.; Ferguson, K. R.; Cryan, J. P.; Bacellar, C.; Tanyag, R. M. P.; Jones, C.; Schorb, S.; Anielski, D.; Belkacem, A.; Bernando, C.; Boll, R.; Bozek, J.; Carron, S.; Chen, G.; Delmas, T.; Englert, L.; Epp, S. W.; Erk, B.; Foucar, L.; Hartmann, R.; Hexemer, A.; Huth, M.; Kwok, J.; Leone, S. R.; Ma, J. H. S.; Maia, F. R. N. C.; Malmerberg, E.; Marchesini, S.; Neumark, D. M.; Poon, B.; Prell, J.; Rolles, D.; Rudek, B.; Rudenko, A.; Seifrid, M.; Siefermann, K. R.; Sturm, F. P.; Swiggers, M.; Ullrich, J.; Weise, F.; Zwart, P.; Bostedt, C.; Gessner, O.; Vilesov, A. F.

doi:10.1126/science.1252395

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Shapes and vorticities of superfluid helium nanodroplets.

Gomez, L. F., Ferguson, K. R., Cryan, J. P., Bacellar, C., Tanyag, R. M. P., Jones, C., et al. (2014). Shapes and vorticities of superfluid helium nanodroplets. Science, 345(6199), 906-909. doi:10.1126/science.1252395.

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Gomez, L. F., Author
Ferguson, K. R., Author
Cryan, J. P., Author
Bacellar, C., Author
Tanyag, R. M. P., Author
Jones, C., Author
Schorb, S., Author
Anielski, D., Author
Belkacem, A., Author
Bernando, C., Author
Boll, R.¹, Author
Bozek, J., Author
Carron, S., Author
Chen, G., Author
Delmas, T., Author
Englert, L., Author
Epp, S. W., Author
Erk, B., Author
Foucar, L., Author
Hartmann, R., Author
Hexemer, A., AuthorHuth, M., AuthorKwok, J., AuthorLeone, S. R., AuthorMa, J. H. S., AuthorMaia, F. R. N. C., AuthorMalmerberg, E., AuthorMarchesini, S., AuthorNeumark, D. M., AuthorPoon, B., AuthorPrell, J., AuthorRolles, D., AuthorRudek, B., AuthorRudenko, A., AuthorSeifrid, M., AuthorSiefermann, K. R., AuthorSturm, F. P., AuthorSwiggers, M., AuthorUllrich, J., AuthorWeise, F., AuthorZwart, P., AuthorBostedt, C., AuthorGessner, O., AuthorVilesov, A. F., Author more..

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1Research Group of Structural Dynamics of (Bio)Chemical Systems, MPI for Biophysical Chemistry, Max Planck Society, ou_578564

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Abstract: Helium nanodroplets are considered ideal model systems to explore quantum hydrodynamics in self-contained, isolated superfluids. However, exploring the dynamic properties of individual droplets is experimentally challenging. In this work, we used single-shot femtosecond x-ray coherent diffractive imaging to investigate the rotation of single, isolated superfluid helium-4 droplets containing ~108 to 1011 atoms. The formation of quantum vortex lattices inside the droplets is confirmed by observing characteristic Bragg patterns from xenon clusters trapped in the vortex cores. The vortex densities are up to five orders of magnitude larger than those observed in bulk liquid helium. The droplets exhibit large centrifugal deformations but retain axially symmetric shapes at angular velocities well beyond the stability range of viscous classical droplets.

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Language(s): eng - English

Dates: Date issued: 2014-08-22

Publication Status: Issued

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Rev. Type: Peer

Identifiers: DOI: 10.1126/science.1252395

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Title: Science

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Pages: - Volume / Issue: 345 (6199) Sequence Number: - Start / End Page: 906 - 909 Identifier: -