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Pregled bibliografske jedinice broj: 905691

Optically excited structural transition in atomic wires on surfaces at the quantum limit


T Frigge, B Hafke, T Witte, B Krenzer, C Streubühr, A Samad Syed, V Mikšić Trontl, I Avigo, P Zhou, M Ligges, D von der Linde, U Bovensiepen, M Horn-von Hoegen, S Wippermann, A Lücke, S Sanna, U Gerstmann, WG Schmidt
Optically excited structural transition in atomic wires on surfaces at the quantum limit // Nature, 544 (2017), 7649; 207-211 doi:10.1038/nature21432 (međunarodna recenzija, članak, znanstveni)


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Naslov
Optically excited structural transition in atomic wires on surfaces at the quantum limit

Autori
T Frigge, B Hafke, T Witte, B Krenzer, C Streubühr, A Samad Syed, V Mikšić Trontl, I Avigo, P Zhou, M Ligges, D von der Linde, U Bovensiepen, M Horn-von Hoegen, S Wippermann, A Lücke, S Sanna, U Gerstmann, WG Schmidt

Izvornik
Nature (0028-0836) 544 (2017), 7649; 207-211

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
Phase transitions and critical phenomena, Surfaces, interfaces and thin films

Sažetak
Transient control over the atomic potential- energy landscapes of solids could lead to new states of matter and to quantum control of nuclear motion on the timescale of lattice vibrations. Recently developed ultrafast time- resolved diffraction techniques1 combine ultrafast temporal manipulation with atomic- scale spatial resolution and femtosecond temporal resolution. These advances have enabled investigations of photo-induced structural changes in bulk solids that often occur on timescales as short as a few hundred femtoseconds. In contrast, experiments at surfaces and on single atomic layers such as graphene report timescales of structural changes that are orders of magnitude longer. This raises the question of whether the structural response of low-dimensional materials to femtosecond laser excitation is, in general, limited. Here we show that a photo-induced transition from the low- to high-symmetry state of a charge density wave in atomic indium (In) wires supported by a silicon (Si) surface takes place within 350 femtoseconds. The optical excitation breaks and creates In– In bonds, leading to the non-thermal excitation of soft phonon modes, and drives the structural transition in the limit of critically damped nuclear motion through coupling of these soft phonon modes to a manifold of surface and interface phonons that arise from the symmetry breaking at the silicon surface. This finding demonstrates that carefully tuned electronic excitations can create non-equilibrium potential energy surfaces that drive structural dynamics at interfaces in the quantum limit (that is, in a regime in which the nuclear motion is directed and deterministic). This technique could potentially be used to tune the dynamic response of a solid to optical excitation, and has widespread potential application, for example in ultrafast detectors.

Izvorni jezik
Engleski

Znanstvena područja
Fizika



POVEZANOST RADA


Profili:

Avatar Url Vesna Mikšić Trontl (autor)

Poveznice na cjeloviti tekst rada:

doi

Citiraj ovu publikaciju:

T Frigge, B Hafke, T Witte, B Krenzer, C Streubühr, A Samad Syed, V Mikšić Trontl, I Avigo, P Zhou, M Ligges, D von der Linde, U Bovensiepen, M Horn-von Hoegen, S Wippermann, A Lücke, S Sanna, U Gerstmann, WG Schmidt
Optically excited structural transition in atomic wires on surfaces at the quantum limit // Nature, 544 (2017), 7649; 207-211 doi:10.1038/nature21432 (međunarodna recenzija, članak, znanstveni)
T Frigge, B Hafke, T Witte, B Krenzer, C Streubühr, A Samad Syed, V Mikšić Trontl, I Avigo, P Zhou, M Ligges, D von der Linde, U Bovensiepen, M Horn-von Hoegen, S Wippermann, A Lücke, S Sanna, U Gerstmann, WG Schmidt (2017) Optically excited structural transition in atomic wires on surfaces at the quantum limit. Nature, 544 (7649), 207-211 doi:10.1038/nature21432.
@article{article, year = {2017}, pages = {207-211}, DOI = {10.1038/nature21432}, keywords = {Phase transitions and critical phenomena, Surfaces, interfaces and thin films}, journal = {Nature}, doi = {10.1038/nature21432}, volume = {544}, number = {7649}, issn = {0028-0836}, title = {Optically excited structural transition in atomic wires on surfaces at the quantum limit}, keyword = {Phase transitions and critical phenomena, Surfaces, interfaces and thin films} }
@article{article, year = {2017}, pages = {207-211}, DOI = {10.1038/nature21432}, keywords = {Phase transitions and critical phenomena, Surfaces, interfaces and thin films}, journal = {Nature}, doi = {10.1038/nature21432}, volume = {544}, number = {7649}, issn = {0028-0836}, title = {Optically excited structural transition in atomic wires on surfaces at the quantum limit}, keyword = {Phase transitions and critical phenomena, Surfaces, interfaces and thin films} }

Časopis indeksira:


  • Current Contents Connect (CCC)
  • Web of Science Core Collection (WoSCC)
    • Science Citation Index Expanded (SCI-EXP)
    • SCI-EXP, SSCI i/ili A&HCI
  • MEDLINE
  • Nature Index


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