Possibilities for Fabricating Polymer Dielectric Laser Accelerator Structures with Additive Manufacturing

Simakov, Evgenya; England, Robert; Gilbertson, Robert; Herman, Matthew; Pilania, Ghanshyam; Shchegolkov, Dmitry; Walker, Ethan; Weis, Eric; Wootton, Kent

doi:10.18429/JACoW-IPAC2018-THPML011

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RIS citation export for THPML011: Possibilities for Fabricating Polymer Dielectric Laser Accelerator Structures with Additive Manufacturing

TY - CONF
AU - Simakov, E.I.
AU - England, R.J.
AU - Gilbertson, R.D.
AU - Herman, M.J.
AU - Pilania, G.
AU - Shchegolkov, D.Y.
AU - Walker, E.M.
AU - Weis, E.
AU - Wootton, K.P.
ED - Koscielniak, Shane
ED - Satogata, Todd
ED - Schaa, Volker RW
ED - Thomson, Jana
TI - Possibilities for Fabricating Polymer Dielectric Laser Accelerator Structures with Additive Manufacturing
J2 - Proc. of IPAC2018, Vancouver, BC, Canada, April 29-May 4, 2018
C1 - Vancouver, BC, Canada
T2 - International Particle Accelerator Conference
T3 - 9
LA - english
AB - We present results of recent studies of new materials designed for the additive manufacturing of accelerating structures for dielectric laser accelerators (DLAs). Demonstration of a stand-alone practical DLA requires innovation in design and fabrication of efficient laser accelerator structures and couplers. Many complicated three-dimensional structures for laser acceleration (such as a long woodpile structure with couplers) are difficult to manufacture with conventional microfabrication technologies. LANL has a large effort focused on developing new materials and techniques for additive manufacturing. The materials for DLA structures must have high dielectric constant (larger than 4), low loss in the infrared regime, high laser damage threshold, and be able to withstand the electron beam damage. This presentation will discuss the development of novel infrared dielectric materials that are of interest for laser acceleration and are compatible with additive manufacturing, as well as recent advances in additive manufacturing of dielectric woodpile structures using a Nanoscribe direct laser-writing 3D printer.
PB - JACoW Publishing
CP - Geneva, Switzerland
SP - 4671
EP - 4674
KW - laser
KW - site
KW - acceleration
KW - electron
KW - lattice
DA - 2018/06
PY - 2018
SN - 978-3-95450-184-7
DO - 10.18429/JACoW-IPAC2018-THPML011
UR - http://jacow.org/ipac2018/papers/thpml011.pdf
ER -