{"id":568092,"date":"2023-09-25T11:26:05","date_gmt":"2023-09-25T15:26:05","guid":{"rendered":"https:\/\/www.rochester.edu\/newscenter\/?p=568092"},"modified":"2024-07-15T14:10:53","modified_gmt":"2024-07-15T18:10:53","slug":"nsf-funds-multi-institutional-ep-opal-laser-design-568092","status":"publish","type":"post","link":"https:\/\/www.rochester.edu\/newscenter\/nsf-funds-multi-institutional-ep-opal-laser-design-568092\/","title":{"rendered":"NSF funds multi-institutional design of world-leading NSF OPAL laser at Rochester"},"content":{"rendered":"

The ultrahigh-intensity laser facility has the potential to be a unique open-access resource for the global scientific community.<\/h2>\n

Editor\u2019s note: Other than in quoted material, this post has been updated to reflect the project\u2019s change in name from EP-OPAL to NSF OPAL in spring 2024.<\/em><\/p>\n

The National Science Foundation (NSF) has awarded the University of Rochester<\/a> nearly $18 million over three years<\/a> to design and prototype key technologies for NSF OPAL<\/a>, a new facility dedicated to the study of ultrahigh-intensity laser-matter interactions. The facility could be built at the Laboratory for Laser Energetics<\/a> (LLE) upon completion of the design project. The funding, part of NSF\u2019s Mid-Scale Research Infrastructure-1 Program<\/a>, supports the agency in positioning the United States at the cutting edge of global science and engineering leadership.<\/p>\n

\u201cThe NSF\u2019s design award represents further recognition that LLE is one of the scientific leaders in our national effort to advance the understanding of light, matter, and even the evolution of the universe itself,\u201d says University of Rochester president Sarah Mangelsdorf. \u201cWith the support of this award, we will continue to build on Rochester\u2019s pioneering legacy in optical science and laser technology, a history that includes breakthroughs that have already transformed medicine, computing, and other fields.<\/p>\n

\u201cWe are grateful for the support of the NSF in selecting Rochester to carry out this important work. We also are thankful for the support of our congressional delegation, particularly Senators Schumer and Gillibrand and Congressman Morelle, for their efforts to advance the work of LLE, the University, and the Rochester region.\u201d<\/p>\n

High-intensity lasers enable a large and important body of pioneering science\u2014from plasma science to particle acceleration, laboratory astrophysics to laser-driven nuclear physics\u2014that has resulted in scientific, medical, commercial, and industrial applications.<\/p>\n

The Omega Laser Facility at LLE houses two very powerful lasers\u2014OMEGA and OMEGA EP\u2014that are used by scientists from around the world. NSF OPAL\u2014originally named EP-OPAL, which stood for OMEGA EP-coupled Optical Parametric Amplifier Lines (OPAL)\u2014will be designed to add two of the most powerful lasers in the world and to harness the capabilities of the high-energy OMEGA EP laser. The facility is envisioned to provide laser capabilities beyond those currently available internationally, helping to reestablish US leadership in the field of high-peak-power lasers and the fundamental science that it enables.<\/p>\n

A successful NSF OPAL design would enable the highest-power laser system in the world, according to principal investigator Jonathan Zuegel<\/a>, a distinguished scientist at LLE and a professor of optics at Rochester. \u201cIts two laser beams combined will deliver laser pulses with peak power approaching the same total power as incident on the Earth\u2019s surface from the Sun, but focused into an area smaller than the cross-section of a human hair,\u201d he says.<\/p>\n

The project leverages the expertise, resources, and talents of partner institutions nationwide, including six universities and one private company:<\/p>\n

\u201cIt\u2019s thrilling to see chirped pulse amplification come full circle with Rochester once again leading the charge to develop and implement the most powerful lasers in the world.\u201d \u2014Nobel laureate Donna Strickland \u201989 (PhD)<\/em><\/div>\n