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Title: All-optical structuring of laser-driven proton beam profiles

Abstract

Here, extreme field gradients intrinsic to relativistic laser-interactions with thin solid targets enable compact MeV proton accelerators with unique bunch characteristics. Yet, direct control of the proton beam profile is usually not possible. Here we present a readily applicable all-optical approach to imprint detailed spatial information from the driving laser pulse onto the proton bunch. In a series of experiments, counter-intuitively, the spatial profile of the energetic proton bunch was found to exhibit identical structures as the fraction of the laser pulse passing around a target of limited size. Such information transfer between the laser pulse and the naturally delayed proton bunch is attributed to the formation of quasi-static electric fields in the beam path by ionization of residual gas. Essentially acting as a programmable memory, these fields provide access to a higher level of proton beam manipulation.

Authors:
ORCiD logo [1]; ORCiD logo [1]; ORCiD logo [1];  [1];  [2]; ORCiD logo [1]; ORCiD logo [3]; ORCiD logo [4]; ORCiD logo [1];  [4];  [5];  [4]; ORCiD logo [1];  [2]; ORCiD logo [4]; ORCiD logo [2]; ORCiD logo [2];  [2];  [2]; ORCiD logo [1] more »;  [2];  [1]; ORCiD logo [6]; ORCiD logo [2]; ORCiD logo [1];  [2] « less
+ Show Author Affiliations
  1. Helmholtz-Zentrum Dresden - Rossendorf, Dresden (Germany); Technische Univ. Dresden, Dresden (Germany)
  2. Helmholtz-Zentrum Dresden - Rossendorf, Dresden (Germany)
  3. SLAC National Accelerator Lab., Menlo Park, CA (United States); Univ. of Alberta, Edmonton, AB (Canada)
  4. SLAC National Accelerator Lab., Menlo Park, CA (United States)
  5. European XFEL GmbH, Schenefeld (Germany)
  6. Helmholtz Institute Jena, Jena (Germany)
Publication Date:
Research Org.:
SLAC National Accelerator Laboratory (SLAC), Menlo Park, CA (United States); Lawrence Berkeley National Laboratory (LBNL), Berkeley, CA (United States)
Sponsoring Org.:
USDOE Office of Science (SC), Fusion Energy Sciences (FES)
OSTI Identifier:
1490650
Alternate Identifier(s):
OSTI ID: 1560571
Grant/Contract Number:  
AC02-76SF00515; AC02-05CH11231
Resource Type:
Accepted Manuscript
Journal Name:
Nature Communications
Additional Journal Information:
Journal Volume: 9; Journal Issue: 1; Journal ID: ISSN 2041-1723
Publisher:
Nature Publishing Group
Country of Publication:
United States
Language:
English
Subject:
72 PHYSICS OF ELEMENTARY PARTICLES AND FIELDS

Citation Formats

Obst-Huebl, Lieselotte, Ziegler, Tim, Brack, Florian-Emanuel, Branco, João, Bussmann, Michael, Cowan, Thomas E., Curry, Chandra B., Fiuza, Frederico, Garten, Marco, Gauthier, Maxence, Göde, Sebastian, Glenzer, Siegfried H., Huebl, Axel, Irman, Arie, Kim, Jongjin B., Kluge, Thomas, Kraft, Stephan D., Kroll, Florian, Metzkes-Ng, Josefine, Pausch, Richard, Prencipe, Irene, Rehwald, Martin, Roedel, Christian, Schlenvoigt, Hans -Peter, Schramm, Ulrich, and Zeil, Karl. All-optical structuring of laser-driven proton beam profiles. United States: N. p., 2018. Web. doi:10.1038/s41467-018-07756-z.
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Obst-Huebl, Lieselotte, Ziegler, Tim, Brack, Florian-Emanuel, Branco, João, Bussmann, Michael, Cowan, Thomas E., Curry, Chandra B., Fiuza, Frederico, Garten, Marco, Gauthier, Maxence, Göde, Sebastian, Glenzer, Siegfried H., Huebl, Axel, Irman, Arie, Kim, Jongjin B., Kluge, Thomas, Kraft, Stephan D., Kroll, Florian, Metzkes-Ng, Josefine, Pausch, Richard, Prencipe, Irene, Rehwald, Martin, Roedel, Christian, Schlenvoigt, Hans -Peter, Schramm, Ulrich, & Zeil, Karl. All-optical structuring of laser-driven proton beam profiles. United States. https://doi.org/10.1038/s41467-018-07756-z
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Obst-Huebl, Lieselotte, Ziegler, Tim, Brack, Florian-Emanuel, Branco, João, Bussmann, Michael, Cowan, Thomas E., Curry, Chandra B., Fiuza, Frederico, Garten, Marco, Gauthier, Maxence, Göde, Sebastian, Glenzer, Siegfried H., Huebl, Axel, Irman, Arie, Kim, Jongjin B., Kluge, Thomas, Kraft, Stephan D., Kroll, Florian, Metzkes-Ng, Josefine, Pausch, Richard, Prencipe, Irene, Rehwald, Martin, Roedel, Christian, Schlenvoigt, Hans -Peter, Schramm, Ulrich, and Zeil, Karl. Thu . "All-optical structuring of laser-driven proton beam profiles". United States. https://doi.org/10.1038/s41467-018-07756-z. https://www.osti.gov/servlets/purl/1490650.
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@article{osti_1490650,
title = {All-optical structuring of laser-driven proton beam profiles},
author = {Obst-Huebl, Lieselotte and Ziegler, Tim and Brack, Florian-Emanuel and Branco, João and Bussmann, Michael and Cowan, Thomas E. and Curry, Chandra B. and Fiuza, Frederico and Garten, Marco and Gauthier, Maxence and Göde, Sebastian and Glenzer, Siegfried H. and Huebl, Axel and Irman, Arie and Kim, Jongjin B. and Kluge, Thomas and Kraft, Stephan D. and Kroll, Florian and Metzkes-Ng, Josefine and Pausch, Richard and Prencipe, Irene and Rehwald, Martin and Roedel, Christian and Schlenvoigt, Hans -Peter and Schramm, Ulrich and Zeil, Karl},
abstractNote = {Here, extreme field gradients intrinsic to relativistic laser-interactions with thin solid targets enable compact MeV proton accelerators with unique bunch characteristics. Yet, direct control of the proton beam profile is usually not possible. Here we present a readily applicable all-optical approach to imprint detailed spatial information from the driving laser pulse onto the proton bunch. In a series of experiments, counter-intuitively, the spatial profile of the energetic proton bunch was found to exhibit identical structures as the fraction of the laser pulse passing around a target of limited size. Such information transfer between the laser pulse and the naturally delayed proton bunch is attributed to the formation of quasi-static electric fields in the beam path by ionization of residual gas. Essentially acting as a programmable memory, these fields provide access to a higher level of proton beam manipulation.},
doi = {10.1038/s41467-018-07756-z},
journal = {Nature Communications},
number = 1,
volume = 9,
place = {United States},
year = {Thu Dec 13 00:00:00 EST 2018},
month = {Thu Dec 13 00:00:00 EST 2018}
}
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Journal Article:
Free Publicly Available Full Text
Publisher's Version of Record
https://doi.org/10.1038/s41467-018-07756-z
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Cited by: 10 works
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Figures / Tables:

Fig. 1 Fig. 1: Schematic of experimental setup and example measurement. Obstacles were inserted in the collimated Draco laser beam before focusing it onto a micrometer sized solid Hydrogen jet target with an f/2.5 off-axis parabolic mirror. An image of the laser focus (logarithmic color scale) is overlapped with a schematic imagemore » of the Hydrogen jet (5 μm diameter) to visualize the amount of laser intensity present in the outer lobes of the focus. Proton beam profile measurements via radiochromic film (RCF) stacks inserted on-demand at 45mm behind the target (7 MeV layer displayed, zoom-in on obstacles with different gray scale to emphasize imprinted structures) and a scintillator at 12.5 cm (exemplary data shown in Methods section) clearly reproduce the shape of the inserted obstacles, namely pick-off mirror and triangle. Zemax simulations confirm the effect of spatial filtering in the laser focus on the transmitted light intensity distribution that was measured by imaging a ceramic screen situated in front of the scintillator detector« less
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dataset, January 2018

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  • Rodare
  • DOI: 10.14278/rodare.65

Optically controlled dense current structures driven by relativistic plasma aperture-induced diffraction
dataset, January 2015

Optical polarization control of laser-driven proton acceleration in foils undergoing relativistic transparency
dataset, January 2016

Ion acceleration by superintense laser-plasma interaction
text, January 2013

On-Shot Characterization of Single Plasma Mirror Temporal Contrast Improvement
text, January 2019

Dose-controlled irradiation of cancer cells with laser-accelerated proton pulses
journal, November 2012

The expansion of a plasma into a vacuum
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Towards optical polarization control of laser-driven proton acceleration in foils undergoing relativistic transparency
journal, September 2016

  • Gonzalez-Izquierdo, Bruno; King, Martin; Gray, Ross J.
  • Nature Communications, Vol. 7, Issue 1
  • DOI: 10.1038/ncomms12891

Direct observation of prompt pre-thermal laser ion sheath acceleration
journal, January 2012

  • Zeil, K.; Metzkes, J.; Kluge, T.
  • Nature Communications, Vol. 3, Issue 1
  • DOI: 10.1038/ncomms1883

Focusing of short-pulse high-intensity laser-accelerated proton beams
journal, December 2011

  • Bartal, Teresa; Foord, Mark E.; Bellei, Claudio
  • Nature Physics, Vol. 8, Issue 2
  • DOI: 10.1038/nphys2153

Optically controlled dense current structures driven by relativistic plasma aperture-induced diffraction
journal, January 2016

  • Gonzalez-Izquierdo, Bruno; Gray, Ross J.; King, Martin
  • Nature Physics, Vol. 12, Issue 5
  • DOI: 10.1038/nphys3613

Isolated proton bunch acceleration by a petawatt laser pulse
journal, January 2018

Laser-accelerated particle beams for stress testing of materials
journal, January 2018

Towards highest peak intensities for ultra-short MeV-range ion bunches
journal, July 2015

  • Busold, Simon; Schumacher, Dennis; Brabetz, Christian
  • Scientific Reports, Vol. 5, Issue 1
  • DOI: 10.1038/srep12459

Laser-Accelerated Proton Beams as Diagnostics for Cultural Heritage
journal, March 2017

  • Barberio, M.; Veltri, S.; Scisciò, M.
  • Scientific Reports, Vol. 7, Issue 1
  • DOI: 10.1038/srep40415

Energetic proton generation in ultra-intense laser–solid interactions
journal, February 2001

  • Wilks, S. C.; Langdon, A. B.; Cowan, T. E.
  • Physics of Plasmas, Vol. 8, Issue 2, p. 542-549
  • DOI: 10.1063/1.1333697

Electric field detection in laser-plasma interaction experiments via the proton imaging technique
journal, May 2002

  • Borghesi, M.; Campbell, D. H.; Schiavi, A.
  • Physics of Plasmas, Vol. 9, Issue 5
  • DOI: 10.1063/1.1459457

Active steering of laser-accelerated ion beams
journal, January 2008

  • Lundh, O.; Glinec, Y.; Homann, C.
  • Applied Physics Letters, Vol. 92, Issue 1
  • DOI: 10.1063/1.2832765

Enhanced laser ion acceleration from mass-limited foils
journal, December 2010

  • Kluge, T.; Enghardt, W.; Kraft, S. D.
  • Physics of Plasmas, Vol. 17, Issue 12
  • DOI: 10.1063/1.3519512

Manipulation of the spatial distribution of laser-accelerated proton beams by varying the laser intensity distribution
journal, February 2016

  • Aurand, B.; Senje, L.; Svensson, K.
  • Physics of Plasmas, Vol. 23, Issue 2
  • DOI: 10.1063/1.4942032

Invited Review Article: “Hands-on” laser-driven ion acceleration: A primer for laser-driven source development and potential applications
journal, July 2016

  • Schreiber, J.; Bolton, P. R.; Parodi, K.
  • Review of Scientific Instruments, Vol. 87, Issue 7
  • DOI: 10.1063/1.4959198

High repetition rate, multi-MeV proton source from cryogenic hydrogen jets
journal, September 2017

  • Gauthier, M.; Curry, C. B.; Göde, S.
  • Applied Physics Letters, Vol. 111, Issue 11
  • DOI: 10.1063/1.4990487

Nonlinear electrodynamics of the interaction of ultra-intense laser pulses with a thin foil
journal, July 1998

  • Vshivkov, V. A.; Naumova, N. M.; Pegoraro, F.
  • Physics of Plasmas, Vol. 5, Issue 7
  • DOI: 10.1063/1.872961

Review of laser-driven ion sources and their applications
journal, April 2012

  • Daido, Hiroyuki; Nishiuchi, Mamiko; Pirozhkov, Alexander S.
  • Reports on Progress in Physics, Vol. 75, Issue 5
  • DOI: 10.1088/0034-4885/75/5/056401

Robust energy enhancement of ultrashort pulse laser accelerated protons from reduced mass targets
journal, July 2014

A light-weight compact proton gantry design with a novel dose delivery system for broad-energetic laser-accelerated beams
journal, June 2017

Dose-dependent biological damage of tumour cells by laser-accelerated proton beams
journal, August 2010

Dynamics of charge-displacement channeling in intense laser–plasma interactions
journal, November 2007

First results with the novel petawatt laser acceleration facility in Dresden
journal, July 2017

High-Power, Kilojoule Class Laser Channeling in Millimeter-Scale Underdense Plasma
journal, March 2011

Relativistic Electron Streaming Instabilities Modulate Proton Beams Accelerated in Laser-Plasma Interactions
journal, May 2017

Plasma Expansion into a Vacuum
journal, May 2003

Isochoric Heating of Solid-Density Matter with an Ultrafast Proton Beam
journal, September 2003

Spatial Uniformity of Laser-Accelerated Ultrahigh-Current MeV Electron Propagation in Metals and Insulators
journal, December 2003

Dynamics of Electric Fields Driving the Laser Acceleration of Multi-MeV Protons
journal, October 2005

Proton Radiography of a Laser-Driven Implosion
journal, July 2006

Vacuum laser acceleration of relativistic electrons using plasma mirror injectors
conference, August 2015

  • Thévenet, M.; Leblanc, A.; Kahaly, S.
  • 2015 11th Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR)
  • DOI: 10.1109/cleopr.2015.7399665

Ultrafast Laser-Driven Microlens to Focus and Energy-Select Mega-Electron Volt Protons
journal, February 2006

All-Optical Structuring Of Laser-Driven Proton Beam Profiles Data Sets
dataset, January 2018

  • Obst-Huebl, Lieselotte; Ziegler, Tim; Brack, Florian-Emanuel
  • Rodare
  • DOI: 10.14278/rodare.65

Diagnosis of Weibel instability evolution in the rear surface density scale lengths of laser solid interactions via proton acceleration
text, January 2017

  • Scott, G. G.; Brenner, C. M.; Bagnoud, V.
  • GSI Helmholtzzentrum fuer Schwerionenforschung, GSI, Darmstadt
  • DOI: 10.15120/gsi-2017-00625
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