Always private
DuckDuckGo never tracks your searches.
Learn More
You can hide this reminder in Search Settings
All regions
Argentina
Australia
Austria
Belgium (fr)
Belgium (nl)
Brazil
Bulgaria
Canada (en)
Canada (fr)
Catalonia
Chile
China
Colombia
Croatia
Czech Republic
Denmark
Estonia
Finland
France
Germany
Greece
Hong Kong
Hungary
Iceland
India (en)
Indonesia (en)
Ireland
Israel (en)
Italy
Japan
Korea
Latvia
Lithuania
Malaysia (en)
Mexico
Netherlands
New Zealand
Norway
Pakistan (en)
Peru
Philippines (en)
Poland
Portugal
Romania
Russia
Saudi Arabia
Singapore
Slovakia
Slovenia
South Africa
Spain (ca)
Spain (es)
Sweden
Switzerland (de)
Switzerland (fr)
Taiwan
Thailand (en)
Turkey
Ukraine
United Kingdom
US (English)
US (Spanish)
Vietnam (en)
Safe search: moderate
Strict
Moderate
Off
Any time
Any time
Past day
Past week
Past month
Past year
  1. iopscience.iop.org

    AWAKE is a proton-driven plasma wakefield acceleration experiment. We show that the experimental setup briefly described here is ready for systematic study of the seeded self-modulation of the 400 GeV proton bunch in the 10 m long rubidium plasma with density adjustable from 1 to cm −3.We show that the short laser pulse used for ionization of the rubidium vapor propagates all the way along ...
    Author:P. Muggli, P. Muggli, E. Adli, R. Apsimon, R. Apsimon, F. Asmus, R. Baartman, A. M. Bachmann, A. M. ...Published:2018
    • Article PDF

      AWAKE is a proton-driven plasma wakefield acceleration experiment. We show that the experimental setup briefly described here is ready for systematic study of the seeded self-modulation of the 400GeV proton bunch in the 10m long rubidium plasma with density adjustable from 1 to10 10´ 14 cm−3. We show that the short laser pulse used for ...

    • Isotope Effects on L-H Threshold and Confinement in Tokamak Plasmas

      The dependence of energy and particle transport on the main ion isotope mass (A) is of fundamental interest for the understanding of turbulent transport and, therefore, for accurate predictions of confinement in burning devices.Future experiments, such as ITER, will operate in deuterium-tritium mixtures, while current experiments typically use a single hydrogen isotope, usually deuterium.

    • Number 1

      AWAKE is a proton-driven plasma wakefield acceleration experiment. We show that the experimental setup briefly described here is ready for systematic study of the seeded self-modulation of the 400 GeV proton bunch in the 10 m long rubidium plasma with density adjustable from 1 to cm −3. We show that the short laser pulse used for ionization ...

  2. iopscience.iop.org

    AWAKE is a proton-driven plasma wakefield acceleration experiment. We show that the experimental setup briefly described here is ready for systematic study of the seeded self-modulation of the 400GeV proton bunch in the 10m long rubidium plasma with density adjustable from 1 to10 10´ 14 cm−3. We show that the short laser pulse used for ...
    Author:P. Muggli, P. Muggli, E. Adli, R. Apsimon, R. Apsimon, F. Asmus, R. Baartman, A. M. Bachmann, A. M. ...Published:2018
  3. researchgate.net

    of the seeded self-modulation of the 400 GeV proton bunch in the 10 m-long rubidium plasma with density adjustable from 1 to 10 × 10 14 cm − 3 . W e show that the short
  4. eprints.lancs.ac.uk

    Abstract. AWAKE is a proton-driven plasma wake eld acceleration experiment. We show that the experimental setup brie y described here is ready for systematic study of the seeded self-modulation of the 400GeV proton bunch in the 10m-long rubidium plasma with density adjustable from 1 to 10 31014 cm . We show that the short
  5. researchgate.net

    Request PDF | On Jan 1, 2017, P Muggli and others published AWAKE readiness for the study of the seeded self-modulation of a 400 GeV proton bunch | Find, read and cite all the research you need on ...
  6. inspirehep.net

    AWAKE is a proton-driven plasma wakefield acceleration experiment. We show that the experimental setup briefly described here is ready for systematic study of the seeded self-modulation of the 400 GeV proton bunch in the 10 m long rubidium plasma with density adjustable from 1 to cm−3.
  7. discovery.ucl.ac.uk

    Abstract. AWAKE is a proton-driven plasma wakefield acceleration experiment. We show that the experimental setup briefly described here is ready for systematic study of the seeded self-modulation of the 400 GeV proton bunch in the 10 m long rubidium plasma with density adjustable from 1 to $10\times {10}^{14}$ cm−3.
  8. AWAKE is a proton-driven plasma wakefield acceleration experiment. % We show that the experimental setup briefly described here is ready for systematic study of the seeded self-modulation of the 400\\,GeV proton bunch in the 10\\,m-long rubidium plasma with density adjustable from 1 to 10$\\times10^{14}$\\,cm$^{-3}$. % We show that the short laser pulse used for ionization of the rubidium ...
  9. research.manchester.ac.uk

    AWAKE readiness for the study of the seeded self-modulation of a 400 GeV proton bunch. Plasma Physics and Controlled Fusion. Advance online publication. ... Li, Yangmei ; Mete, Oznur; Williamson, Barney et al. / AWAKE readiness for the study of the seeded self-modulation of a 400 GeV proton bunch. In: Plasma Physics and Controlled Fusion. 2017 ...
  10. pure.manchester.ac.uk

    Abstract. AWAKE is a proton-driven plasma wake eld acceleration experiment. We show that the experimental setup brie y described here is ready for systematic study of the seeded self-modulation of the 400GeV proton bunch in the 10m-long rubidium plasma with density adjustable from 1 to 10 1410 cm 3. We show that the short

    Can’t find what you’re looking for?

    Help us improve DuckDuckGo searches with your feedback

Custom date rangeX