PROJECTS
In the period since its founding, Euclid TechLabs LLC has established a reputation for its development of advanced dielectric materials for the particle accelerator and microwave communities. Our expertise includes:
- High uniformity, low loss ceramics
- Ferroelectrics
- CVD diamond structures
- Superconducting structures
- Numerical modeling and simulation
- Accelerator instrumentation and control
Much of our effort is directed towards particle acceleration technologies based on Dielectric Loaded Accelerator (DLA) structures. These devices use electromagnetic waves (typically in the 1-100 GHz frequency range) propagating in a dielectric cavity to accelerate electrons. There are numerous variations on this approach, depending on whether the cavity is powered by a drive beam or external rf source, the configuration of the cavity, and the properties of the dielectric(s) used for its construction.
A brief overview of DLA technology, "High Power Rf Generation by Relativistic Beams in Dielectric Structures", J. Appl. Phys. 84 663 (1998), is available here.
Current Projects
- Quarter Wave Coaxial Coupler for 1.3 GHz Superconducting Cavity
- Development of a Diamond-Based Cylindrical Dielectric Loaded Accelerating Structure
- 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