Skip to main content
Home
Department Of Physics text logo
  • Research
    • Our research
    • Our research groups
    • Our research in action
    • Research funding support
    • Summer internships for undergraduates
  • Study
    • Undergraduates
    • Postgraduates
  • Engage
    • For alumni
    • For business
    • For schools
    • For the public
Menu
Atomic and Laser Physics
Credit: Jack Hobhouse

Andrea Cavalleri

Professor of Physics

Sub department

  • Atomic and Laser Physics
andrea.cavalleri@physics.ox.ac.uk
Telephone: 01865 (2)72365
Clarendon Laboratory, room 316.3
  • About
  • Publications

Ultrafast Tr-ARPES with artemis XUV beamline

High Intensity Lasers and High Field Phenomena, HILAS 2012 (2012)

Authors:

CM Cacho, ICE Turcu, CA Froud, WA Bryan, GRAJ Nemeth, JC Petersen, N Dean, A Cavalleri, S Kaiser, A Simoncig, HY Liu, AL Cavalieri, S Dhesi, L Poletto, P Villoresi, F Frassetto, E Springate

Ultrafast Tr-ARPES with artemis XUV beamline

International Conference on Ultrafast Structural Dynamics, ICUSD 2012 (2012)

Authors:

CM Cacho, ICE Turcu, CA Froud, WA Bryan, GRAJ Nemeth, JC Petersen, N Dean, A Cavalleri, S Kaiser, A Simoncig, HY Liu, AL Cavalieri, S Dhesi, L Poletto, P Villoresi, F Frassetto, E Springate

Abstract:

A new HHG XUV beamline at Artemis, user open-access facility at CLF, offers unique capabilities optimised for Tr-ARPES. Current result on ultrafast melting of Mott and charge order in TaS2 will be presented. © 2012 OSA.
More details from the publisher

Ultrafast Tr-ARPES with artemis XUV beamline

International Conference on Ultrafast Structural Dynamics, ICUSD 2012 (2012)

Authors:

CM Cacho, ICE Turcu, CA Froud, WA Bryan, GRAJ Nemeth, JC Petersen, N Dean, A Cavalleri, S Kaiser, A Simoncig, HY Liu, AL Cavalieri, S Dhesi, L Poletto, P Villoresi, F Frassetto, E Springate

Abstract:

A new HHG XUV beamline at Artemis, user open-access facility at CLF, offers unique capabilities optimised for Tr-ARPES. Current result on ultrafast melting of Mott and charge order in TaS2 will be presented. © 2012 OSA.

Advances in Ultrafast Control and Probing of Correlated-Electron Materials

IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS 18:1 (2012) 81-91

Authors:

Simon Wall, Matteo Rini, Sarnjeet S Dhesi, Robert W Schoenlein, Andrea Cavalleri
More details from the publisher

Driving magnetic order in a manganite by ultrafast lattice excitation

Physical Review B - Condensed Matter and Materials Physics 84:24 (2011)

Authors:

M Först, RI Tobey, S Wall, H Bromberger, V Khanna, AL Cavalieri, YD Chuang, WS Lee, R Moore, WF Schlotter, JJ Turner, O Krupin, M Trigo, H Zheng, JF Mitchell, SS Dhesi, JP Hill, A Cavalleri

Abstract:

Femtosecond midinfrared pulses are used to directly excite the lattice of the single-layer manganite La 0.5Sr 1.5MnO 4. Magnetic and orbital orders, as measured by femtosecond resonant soft x-ray diffraction with an x-ray free-electron laser, are reduced within a few picoseconds. This effect is interpreted as a displacive exchange quench, a prompt shift in the equilibrium value of the magnetic- and orbital-order parameters after the lattice has been distorted. Control of magnetism through ultrafast lattice excitation may be of use for high-speed optomagnetism. © 2011 American Physical Society.
More details from the publisher

Pagination

  • First page First
  • Previous page Prev
  • …
  • Page 31
  • Page 32
  • Page 33
  • Page 34
  • Current page 35
  • Page 36
  • Page 37
  • Page 38
  • Page 39
  • …
  • Next page Next
  • Last page Last

Footer Menu

  • Contact us
  • Giving to the Dept of Physics
  • Work with us
  • Media

User account menu

  • Log in

Follow us

FIND US

Clarendon Laboratory,

Parks Road,

Oxford,

OX1 3PU

CONTACT US

Tel: +44(0)1865272200

University of Oxfrod logo Department Of Physics text logo
IOP Juno Champion logo Athena Swan Silver Award logo

© University of Oxford - Department of Physics

Cookies | Privacy policy | Accessibility statement

Built by: Versantus

  • Home
  • Research
  • Study
  • Engage
  • Our people
  • News & Comment
  • Events
  • Our facilities & services
  • About us
  • Current students
  • Staff intranet