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Waveguides in three-dimensional photonic bandgap materials for particle-accelerator on a chip architectures

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Staude, Isabelle; McGuinness, Christopher; Frölich, Andreas; Byer, Robert L.; Colby, Eric; Wegener, Martin

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The quest for less costly and more compact high-energy particle accelerators makes research on alternative acceleration mechanisms an important enterprise. From the multitude of suggested concepts, the photonic accelerator design by B. M. Cowan [Phys. Rev. ST Accel. Beams 11, 011301 (2008)] stands out by its distinct potential of creating an accelerator on a chip [Proposal E-163, SLAC (2001)]. Herein, electrons are accelerated by the axial electric field of a strongly confined optical mode of...[Show more]

dc.contributor.authorStaude, Isabelle
dc.contributor.authorMcGuinness, Christopher
dc.contributor.authorFrölich, Andreas
dc.contributor.authorByer, Robert L.
dc.contributor.authorColby, Eric
dc.contributor.authorWegener, Martin
dc.date.accessioned2016-05-13T06:22:24Z
dc.date.available2016-05-13T06:22:24Z
dc.identifier.issn1094-4087
dc.identifier.urihttp://hdl.handle.net/1885/101235
dc.description.abstractThe quest for less costly and more compact high-energy particle accelerators makes research on alternative acceleration mechanisms an important enterprise. From the multitude of suggested concepts, the photonic accelerator design by B. M. Cowan [Phys. Rev. ST Accel. Beams 11, 011301 (2008)] stands out by its distinct potential of creating an accelerator on a chip [Proposal E-163, SLAC (2001)]. Herein, electrons are accelerated by the axial electric field of a strongly confined optical mode of an air waveguide within a silicon-based three-dimensional photonic band-gap material. Using a combination of direct laser writing and silicon double inversion, we here present the first experimental realization of this complex structure. Optical spectroscopy provides unambiguous evidence for the existence of an accelerating waveguide mode with axial polarization.
dc.description.sponsorshipFunding is also provided by US Department of Energy contracts DE-AC02-76SF00515 and DE-FG03-97ER41043-II. The Ph.D. education of A.F. is embedded into the Karlsruhe School of Optics and Photonics.
dc.publisherOptical Society of America
dc.rights© 2012 Optical Society of America
dc.sourceOptics Express
dc.titleWaveguides in three-dimensional photonic bandgap materials for particle-accelerator on a chip architectures
dc.typeJournal article
local.description.notesImported from ARIES
local.identifier.citationvolume20
dc.date.issued2012
local.identifier.absfor020500
local.identifier.ariespublicationf5625xPUB6729
local.publisher.url10.1364/OE.20.005607
local.type.statusPublished Version
local.contributor.affiliationStaude, Isabelle, College of Physical and Mathematical Sciences, CPMS Research School of Physics and Engineering, Nonlinear Physics Centre, The Australian National University
local.contributor.affiliationMcGuinness, C, Nano Center, United States of America
local.contributor.affiliationFrolich, A, Karlsruhe Institute of Technology, Germany
local.contributor.affiliationByer, Robert L, Stanford University, United States of America
local.contributor.affiliationColby, E, SLAC National Accelerator Laboratory, United States of America
local.contributor.affiliationWegener, M, Karlsruhe Institute of Technology (KIT), Germany
local.bibliographicCitation.issue5
local.bibliographicCitation.startpage5607
local.bibliographicCitation.lastpage5612
local.identifier.doi10.1364/OE.20.005607
dcterms.accessRightsOpen Access
CollectionsANU Research Publications

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