C. Menoni (US) Colorado State University, Electrical and Computer Engineering
Colorado State University Electrical and Computer EngineeringAuthor Of 2 Presentations
(PSSI) Photodetectors, Sensors, Systems and Imaging
ThE1.4 - NANOSCALE ISOTOPIC IMAGING BY EXTREME ULTRAVIOLET LASER ABLATION MASS SPECTROMETRY
Presentation Type
Contributed Submission
Authors
- L. Rush (US) Colorado State University
- T. Green (US) Colorado State University
- I. Kuznetsov (US) Colorado State University
- D. Reilly (US) Pacific Northwest National Laboratory
- J. Rocca (US) Colorado State University
- A. Duffin (US) Pacific Northwest National Laboratory
- C. Menoni (US) Colorado State University, Electrical and Computer Engineering
Date
10/03/2019
Time
08:30 AM - 09:45 AM
Room
La Vista A/B
Duration
15 Minutes
Lecture Time
09:30 AM - 09:45 AM
Abstract
Abstract
We report on the development of an extreme ultraviolet laser ablation time-of-flight mass spectrometer for high resolution elemental and isotopic analysis, and show how it compares to more developed analytical techniques such as secondary ion mass spectrometry.
(HPIS) High Power / Intensity Sources
WC1.2 - DEVELOPMENT AND CHARACTERIZATION OF KILOWATT-AVERAGE-POWER, CRYOGENICALLY-COOLED YB:YAG LASER AMPLIFIERS
Presentation Type
Contributed Submission
Authors
- A. Meadows (US) Colorado State University
- C. Baumgarten (US) Colorado State University
- H. Chi (US) Colorado State University
- H. Wang (US) Colorado State University
- G. Murray (US) Colorado State University
- K. Dehne (US) XUV Lasers, Inc.
- E. Jankowska (US) Colorado State University
- H. Bravo (US) XUV Lasers, Inc.
- Y. Wang (US) Colorado State University
- B. Reagan (US) Colorado State University
- C. Menoni (US) Colorado State University, Electrical and Computer Engineering
- J. Rocca (US) Colorado State University
Date
10/02/2019
Time
08:30 AM - 10:00 AM
Room
El Mirador C East
Duration
15 Minutes
Lecture Time
09:00 AM - 09:15 AM
Abstract
Abstract
We report on the development and characterization of kW-average-power cryogenically-cooled amplifiers generating Joule-level pulses of picosecond duration at 1 kHz. Analysis of the thermal and multilayer coating damage behavior of a high-energy kilowatt-average-power diode-pumped Yb:YAG active mirror based on measurements and simulations is presented.