EUCLID TECHLABS NEWS

Euclid Awarded 2013 Phase II SBIR

Improved Capillary Guided Laser Wakefield Accelerators Based on Diamond Materials

Euclid Multipactor Paper Published in APL

Observation of multipactor suppression in a dielectric-loaded accelerating structure using an applied axial magnetic field

Recent Euclid Journal Publications

Observation of multipactor suppression in a dielectric-loaded accelerating structure using an applied axial magnetic field
High power terahertz radiation source based on electron beam wakefields
Photoinduced spin polarization and microwave technology

Euclid Awarded Three 2013 Phase 2 SBIR Grants

Ferroelectric Based High Power Components for L-Band Accelerator Applications
Complete Multipactor Suppression in Dielectric Loaded Accelerators Using a Solenoid Field
Improved Capillary Guided Laser Wakefield Accelerators Based on Diamond Materials

Euclid Awarded Four 2012 Phase 2 SBIR Grants

High Power Rf Testing Of A 3-Cell Superconducting Traveling Wave Accelerating Structure
Chirped Electron Bunch Energy Compensation For An X-Ray Light Source
A New Conical Half-Wave Superconducting Cavity
High Gradient Test of a Standing Wave Dielectric Loaded Accelerating Structure

Euclid has also been awarded three 2012 Phase 1 grants:

Complete Multipacitor Suppression in Dielectric Loaded Accelerators using a Solenoid Field
Ferroelectric Based High Power Components for L-Band Accelerator Applications
Improved Capillary Guided Laser Wakefield Accelerators based on Diamond Materials

Euclid Energy Modulation Paper Published in PRL

Experimental Observation of Energy Modulation in Electron Beams Passing through Terahertz Dielectric Wakefield Structures

Euclid Awarded Two 2011 Phase II SBIRs

“Development of a Dielectric-based Short Rf Pulse Two Beam Accelerator Prototype Module”
“Development of a 12 GHz Dielectric-Based Wakefield Power Extractor for Potential CLIC Applications”

Euclid is now the exclusive worldwide distributor of the SuperLANS family of codes for 2D RF cavity simulation.

For more information, follow this link.

Visit Euclid's display at IPAC 2012

Euclid Tunable Structure Paper Published in PRL

Experimental Demonstration of Wakefield Acceleration in a Tunable Dielectric Loaded Accelerating Structure

Euclid Techlabs Maryland office moves to Gaithersburg MD

See here for updated contact info.

Coming Soon...BPΦQM

Compact Electronics Module for the Small Scale Accelerator Facility developed at Euclid Techlabs. Position, charge, phase readout module for BPMs. Info sheet

Euclid Awarded Five DOE 2011 Phase I SBIR Grants

Info on DOE website.
Chirped Electron Bunch Energy Compensation for an X-Ray Light Source
High Power Rf Testing Of A 3-Cell Superconducting Traveling Wave Accelerating Structure
Enhanced Transformer Ratio using A Double Triangular Beam Generated using The Emittance Exchange Technique
A New Conical Half-Wave Superconducting Cavity
High Gradient Test of a Standing Wave Dielectric Loaded Accelerating Structure

Euclid Job Opening

Staff physicist job opening at Euclid Techlabs LLC, Batavia IL. Master's degree in physics or related field and two years experience required. Send resume to 400 Professional Drive #220, Gaithersburg MD 20879, Attn: Mr Dave Auble. Position is no longer open.

EUCLID AWARDED DOE PHASE II SBIR--A New Quarter-Wave Coaxial Coupler For 1.3 GHZ Superconducting Cavity

Euclid Awarded Five 2010 DOE Phase I SBIR Grants

"THz Dielectric Wakefield Accelerating Structure"
"Dielectric Collimators for Linear Collider Beam Delivery"
"Multipactor Suppression in Dielectric Loaded Accelerating Structures"
"Development of a 12 GHz Dielectric-Based Wakefield Power Extractor"
"Development of a Dielectric-Based Short RF Pulse Two Beam Accelerator Prototype Module"

EUCLID CONSULTANT JIM BUTLER WINS HILLEBRAND PRIZE

HIGH GRADIENTS ACHIEVED IN TEST OF EUCLID PROTOTYPE SUPERCONDUCTING CAVITY

EUCLID SCIENTISTS JING AND ANTIPOV INSTRUCTORS AT 2010 USPAS

EUCLID METAMATERIAL PAPER SELECTED AS PRL EDITORS CHOICE

EUCLID CONSULTANT JIM BUTLER ON PBS NOVA WEBSITE

Euclid Awarded 2009 DOE Phase II SBIR

"Development of a Diamond-Based Cylindrical Dielectric Loaded Accelerating Structure"

The principal goal of this project is a development and demonstration of a new type of cylindrical Dielectric Loaded Accelerating (DLA) structure based on a diamond waveguide. Our choice of CVD (Chemical Vapor Deposition) diamond as a loading material will allow demonstration of high accelerating gradients as high as 0.5-1.0 GV/m as long as the diamond surface can sustain a 0.5-1.0 GV/m breakdown short pulse (~ 10ns) rf field. Diamond has the lowest coefficient of thermal expansion, highest thermal conductivity and extremely low loss tangent (<10-4) at Ka-W frequency bands. Multipacting performance of the CVD diamond can be dramatically suppressed by diamond surface dehydrogenation. Given these remarkable properties, it should come as no surprise that diamonds should find a special place in Advanced Accelerator Concepts development. Note that the CVD process technology is rapidly developing making the CVD diamond fabrication process really fast and inexpensive.

Euclid Awarded Five 2009 DOE Phase I SBIR Grants

"A New Quarter-Wave Coaxial Coupler for 1.3 GHZ Superconducting Cavity"
"Ferroelectric Based High Power Components for L-Band Accelerator Applications"
"A Compact Electronics Module for the Small Accelerator Facility: A Measurement System for Charge, Position, and RF Phase"
"Numerical Algorithms for Dispersive, Active, and Nonlinear Media with Applications to the Paser"
"Nonlinear Ferroelectric Material Development for L-Band Accelerator Applications"

Upcoming and Recent Conferences with Euclid Participation


AAC1215th Advanced Accelerator Concepts Workshop, Austin, Texas, June 10-15, 2012

IPAC12 International Particle Accelerator Conference, New Orleans, LA, May 20 - 25, 2012.

PAC11 Particle Accelerator Conference, NYC, March 28 - April 1, 2011

IPAC10 International Particle Accelerator Conference, Kyoto, Japan, May 23-28 2010

Advanced Accelerator Concepts Annapolis MD, June 13-19 2010

Updated 5.2.12