2153503
Cooperative Agreement
Overview
Grant Description
Mid-Scale RI-2 Consortium: Compact X-Ray Free-Electron Laser Project (CXFEL)
Modern science questions across many disciplines increasingly focus on understanding events, changes, and structures at the smallest atomic scales. The establishment of a Compact X-Ray Free Electron Laser (CXFEL) facility at Arizona State University will enable these advanced studies and fulfill an urgent need in the broad U.S. research community to directly observe, manipulate, and control quantum dynamics in complex materials, molecules, and interfaces. These capabilities will reveal novel biological processes, enable new energy-efficient technologies, and decode quantum behavior that can drive new computing methods and novel materials.
A diverse population of undergraduate and graduate students will be engaged in the scientific and project management aspects of this mid-scale research infrastructure development effort. The combination of infrastructure training and broad researcher access to transformative new instruments will serve the NSF mission priority to advance all fields of science and engineering.
The CXFEL is a novel instrument to produce sub-femtosecond coherent X-rays for analysis of a range of samples. CXFEL builds on the latest advances in laser technology and electron beam physics to produce a room-sized X-ray laser (roughly 10m long) with full coherence in time and space. The CXFEL will uniquely offer full control of the X-ray phase using electron-beam patterning that allows customized time-structure of the beam, e.g., attosecond pulses, very narrow linewidths, and extremely precise timing among multiple pulses with different colors. Multiple end-stations will be configured to support X-ray spectroscopy, small- and wide-angle X-ray scattering, coincident attosecond momentum imaging, and time-resolved X-ray crystallography for studies in biology, quantum materials, atomic and molecular science, and optical sciences.
During construction, sophisticated machine learning software will be integrated with the hardware to create highly flexible and efficient ultrafast science instruments that respond to NSF's Big Ideas, including mid-scale research infrastructure, rules of life, quantum leap, and harnessing the data revolution. The software tools will help guide acquisition and analysis of large datasets, speeding up experiments and expanding capabilities.
The primary outcome of the CXFEL project is construction of a user-facility with instruments and end-stations, including validation of algorithms and experimental capabilities. The resulting facility will be accessible to a nationally and internationally distributed group of investigators from a range of different scientific disciplines. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Modern science questions across many disciplines increasingly focus on understanding events, changes, and structures at the smallest atomic scales. The establishment of a Compact X-Ray Free Electron Laser (CXFEL) facility at Arizona State University will enable these advanced studies and fulfill an urgent need in the broad U.S. research community to directly observe, manipulate, and control quantum dynamics in complex materials, molecules, and interfaces. These capabilities will reveal novel biological processes, enable new energy-efficient technologies, and decode quantum behavior that can drive new computing methods and novel materials.
A diverse population of undergraduate and graduate students will be engaged in the scientific and project management aspects of this mid-scale research infrastructure development effort. The combination of infrastructure training and broad researcher access to transformative new instruments will serve the NSF mission priority to advance all fields of science and engineering.
The CXFEL is a novel instrument to produce sub-femtosecond coherent X-rays for analysis of a range of samples. CXFEL builds on the latest advances in laser technology and electron beam physics to produce a room-sized X-ray laser (roughly 10m long) with full coherence in time and space. The CXFEL will uniquely offer full control of the X-ray phase using electron-beam patterning that allows customized time-structure of the beam, e.g., attosecond pulses, very narrow linewidths, and extremely precise timing among multiple pulses with different colors. Multiple end-stations will be configured to support X-ray spectroscopy, small- and wide-angle X-ray scattering, coincident attosecond momentum imaging, and time-resolved X-ray crystallography for studies in biology, quantum materials, atomic and molecular science, and optical sciences.
During construction, sophisticated machine learning software will be integrated with the hardware to create highly flexible and efficient ultrafast science instruments that respond to NSF's Big Ideas, including mid-scale research infrastructure, rules of life, quantum leap, and harnessing the data revolution. The software tools will help guide acquisition and analysis of large datasets, speeding up experiments and expanding capabilities.
The primary outcome of the CXFEL project is construction of a user-facility with instruments and end-stations, including validation of algorithms and experimental capabilities. The resulting facility will be accessible to a nationally and internationally distributed group of investigators from a range of different scientific disciplines. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Awardee
Funding Goals
THE GOAL OF THIS FUNDING OPPORTUNITY, "MID-SCALE RESEARCH INFRASTRUCTURE-2", IS IDENTIFIED IN THE LINK: HTTPS://WWW.NSF.GOV/PUBLICATIONS/PUB_SUMM.JSP?ODS_KEY=NSF21537
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
Tempe,
Arizona
85287-6011
United States
Geographic Scope
Single Zip Code
Related Opportunity
Analysis Notes
Amendment Since initial award the total obligations have decreased 2% from $63,254,042 to $61,886,066.
Arizona State University was awarded
CXFEL Project: Compact X-Ray Free-Electron Laser
Cooperative Agreement 2153503
worth $61,886,066
from the Division of Biological Infrastructure in March 2023 with work to be completed primarily in Tempe Arizona United States.
The grant
has a duration of 5 years and
was awarded through assistance program 47.074 Biological Sciences.
The Cooperative Agreement was awarded through grant opportunity Mid-scale Research Infrastructure-2.
Status
(Ongoing)
Last Modified 8/21/25
Period of Performance
3/15/23
Start Date
2/29/28
End Date
Funding Split
$61.9M
Federal Obligation
$0.0
Non-Federal Obligation
$61.9M
Total Obligated
Activity Timeline
Subgrant Awards
Disclosed subgrants for 2153503
Transaction History
Modifications to 2153503
Additional Detail
Award ID FAIN
2153503
SAI Number
None
Award ID URI
SAI EXEMPT
Awardee Classifications
Public/State Controlled Institution Of Higher Education
Awarding Office
490808 DIV OF BIOLOGICAL INFRASTRUCTURE
Funding Office
490808 DIV OF BIOLOGICAL INFRASTRUCTURE
Awardee UEI
NTLHJXM55KZ6
Awardee CAGE
4B293
Performance District
AZ-04
Senators
Kyrsten Sinema
Mark Kelly
Mark Kelly
Budget Funding
| Federal Account | Budget Subfunction | Object Class | Total | Percentage |
|---|---|---|---|---|
| Major Research Equipment and Facilities Construction, National Science Foundation (049-0551) | General science and basic research | Grants, subsidies, and contributions (41.0) | $31,627,021 | 100% |
Modified: 8/21/25