Development and manufacture of laser mirror coatings for future gravitational wave observatories and other space applications

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Title
Development and manufacture of laser mirror coatings for future gravitational wave observatories and other space applications

CoPED ID
5d384c73-f2e9-43a5-854b-71345b0685d4

Status
Active

Funders

Value
No funds listed.

Start Date
Jan. 1, 2022

End Date
Dec. 31, 2026

Description

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Future improvements to gravitational wave detector sensitivities are required to truly exploit the new field of gravitational wave astronomy. One of the most challenging areas is reducing thermally driven motion (Brownian thermal noise) associated with the laser mirror coatings used in the interferometric detection system. The University of Strathclyde and the National Manufacturing Institute Scotland (NMIS) have established novel ECR (electron cyclotron resonance) ion beam deposition, in addition to procuring the industry-best RF (radio frequency) ion deposition technology. This project will seek to study both RF and ECR ion beam systems. Of particular interest is studying the use of novel oxide mixtures to enable enhanced optical and mechanical properties of multi-layer mirror coatings for use in ultra-narrow linewidth cavities. Beyond this, based on recent research carried out elsewhere and within the LIGO Scientific Collaboration (LSC) (which includes Strathclyde and other UK groups), the project will investigate novel annealing approaches for removing (by diffusion) the trapped inert gas within these coatings. Trapped gas, which is required in the manufacturing process, is now known to cause increased laser damage susceptibility, in addition to causing gas aggregation during the required high-temperature annealing that can cause blistering and stress-induced damage.

Stuart Reid SUPER_PER
Bethany McCrindle STUDENT_PER

Subjects by relevance
  1. Lasers
  2. Ions
  3. Astronomy
  4. Diffusion
  5. Manufacturing
  6. Gravitational waves

Extracted key phrases
  1. Future gravitational wave observatory
  2. Laser mirror coating
  3. Gravitational wave detector sensitivity
  4. Gravitational wave astronomy
  5. ECR ion beam system
  6. Laser damage susceptibility
  7. Development
  8. Future improvement
  9. Ion beam deposition
  10. Novel annealing approach
  11. Ion deposition technology
  12. Novel oxide mixture
  13. Novel ECR
  14. Interferometric detection system
  15. Space application

Related Pages

UKRI project entry

UK Project Locations