CW lasers Four 15W green DPSS pump lasers One 25W blue-green (+UV) argon pump laser Three Ti:Sa ~700–1000nm ring lasers (<50kHz) Two dye >410nm ring lasers.

Slides:

Advertisements

Similar presentations

Collinear interaction of photons with orbital angular momentum Apurv Chaitanya N Photonics science Laboratory, PRL.

Advertisements

Components of ultrafast laser system

May Chuck DiMarzio, Northeastern University ECE-1466 Modern Optics Course Notes Part 9 Prof. Charles A. DiMarzio Northeastern University.

AREAL Laser overview Advanced Research Electron Accelerator Laboratory Aghasi Lorsabyan.

High energy, high repetition rate pump laser system for OPCPAs A.-L. Calendron 1,2,3, L. E. Zapata 1,4, H. Çankaya 1,2, H. Lin 4 and F. X. Kärtner 1,2,3,4.

Ultrafast Spectroscopy

SLAC XFEL Short Bunch Measurement and Timing Workshop 1 Current status of the FERMI project (slides provided by Rene Bakker) Photoinjector laser system.

1.4 Pulsed operation Normal pulsed mode In a normal-mode pulsed laser, pumping is usually via a short pulse that produces a short-lived population inversion.

Neodymium:YAG Laser Nd3+ in yttrium-aluminum-garnet (Y3Al5O12)

Angus Henderson, Paul Hoffman and Ryan Stafford

MB1 T.O.F. II Precise timing Electron ID Eliminate muons that decay Tracking devices T.O.F. 0 & I Pion /muon ID precise timing 201 MHz RF cavities Liquid.

Time-Bandwidth Products getting the average power of ultrafast DPSS lasers from hundreds of mW to tens of Watts by Dr. Thomas Ruchti CERN, April 2006 SESAM.

Slide 1 George R. Neil Associate Director Jefferson Lab Jefferson Avenue Newport News, Virginia VUV Program Directors Review Plans for a VUV.

Ultrafast Experiments Hangwen Guo Solid State II Department of Physics & Astronomy, The University of Tennessee.

30. Nov I.Will, G. Klemz, Max Born Institute: Optical sampling system Optical sampling system for detailed measurement of the longitudinal pulse.

The ILC Laser-wire system Sudhir Dixit The John Adams Institute University of Oxford.

October 16-18, 2012Working Group on Space-based Lidar Winds 1 AEOLUS STATUS Part 1: Design Overview.

DMP Product Portfolio Femtosecond Lasers Trestles Ti:Sapphire lasers …… fs; nm, mW Mavericks Cr:Forsterite lasers

1 Fabry-Perot cavity & pulsed laser J. Bonis, V. Brisson, J.N. Cayla, R. Chiche, R. Cizeron, J. Colin, Y. Fedala, G. Guilhem, M. Jacquet-Lemire, D. Jehanno,

DS3-DS4 Joint 1 st Task Meeting, Saclay 16 th -17 th May 2005 Matter under extremes conditions Femtosecond Laser Servers Laboratoire Francis Perrin SPAM.

Two-photon absorption standards in the nm excitation range: establishing a correction curve for accurate cross section calibration Nikolay S.

W.S. Graves, ASAC Review, Sept 18-19, 2003 Accelerator Overview Goals for proposal Description of technical components: injector, linac, compressors, etc.

PicoTRAIN IC Only oscillator (no MOPA design)  more simplicity and reliability Dimensions: 480*200*101.6mm3 ongoing volume production High stability.

Palaiseau - FRANCE Spatio-Temporal Chirped Pulse Amplification for Avoiding Spectral Modifications in Ultra-Short Petawatt Lasers C. Radier1,2, F. Giambruno1,3,

A 5 fs high average power OPCPA laser system for attosecond pulse production Philip Bates, Yunxin Tang, Emma Springate and Ian Ross Central Laser Facility,

Implementation of titanium:sapphire lasers at ISOLDE RILIS

Photo acoustic spectroscopy of beta amyloids - research overview Group Meeting February 08.

Generation and Control of Squeezed Light Fields R. Schnabel  S.  Chelkowski  A.  Franzen  B.  Hage  H.  Vahlbruch  N. Lastzka  M.  Mehmet.

Automated 2D IR Spectroscopy using a high repetition rate laser system

Intra-cavity Pulse Shaping of Mode-locked Oscillators Shai Yefet, Naaman Amer and Avi Pe’er Department of physics and BINA Center of nano-technology, Bar-Ilan.

Fiber Laser for ERL Zach Ulibarri Mentor: Zhi Zhao.

Lasers and RF-Timing Franz X. Kaertner

Frequency comb lasers on the move to extreme wavelengths Kjeld Eikema LCVU day 17 Dec Christoph Gohle, Dominik Kandula, Tjeerd Pinkert Anne Lisa.

V. Sonnenschein, I. D. Moore, M. Reponen, S. Rothe, K.Wendt.

Yb:YAG Regenerative Amplifier for A1 Ground Laser Hut Rui Zhang ACCL Division V, RF-Gun Group Nov 20, 2015 SuperKEKB Injector Laser RF Gun Review.

Oscillator stability & ASE Reduction

Laser System Upgrade Overview

Laser system for ILC diagnostics Sudhir Dixit: The John Adams Institute (Oxford)

Ultrafast techniques Laser systems Ti:Saph oscillator/regen, modelocking NOPA’s Pump-probe absorption difference spectroscopy Two-color Dispersed detection.

Development of a System for High Resolution Spectroscopy with an Optical Frequency Comb Dept. of Applied Physics, Fukuoka Univ., JST PRESTO, M. MISONO,

Generation of Spurious Signals in Nonlinear Frequency Conversion Tyler Brewer, Russell Barbour, Zeb Barber.

TOWARD GENERATION OF HIGH POWER ULTRAFAST WHITE LIGHT LASER USING FEMTOSECOND TERAWATT LASER IN A GAS-FILLED HOLLOW-CORE FIBER Walid Tawfik Physics and.

Extreme Light Infrastructure in Romania: progress Daniel URSESCU Technical contact point for ELI in Romania INFLPR, Magurele, Romania.

Workshop for advanced THz and Compton X-ray generation

Drive Laser Introduction ‘ir’ master oscillator power amplifier chain (MOPA) uses standard chirped pulse amplification scheme (CPA) third harmonic generation.

1 Dual Etalon Frequency Comb Spectrometer David W. Chandler and Kevin E. Strecker Sandia National Laboratories – Biological and Energy Sciences Division.

Measurements of High-Field THz Induced Photocurrents in Semiconductors Michael Wiczer University of Illinois – Urbana-Champaign Mentor: Prof. Aaron Lindenberg.

February 17-18, 2010 R&D ERL Brian Sheehy R&D ERL Laser and laser light transport Brian Sheehy February 17-18, 2010 Laser and Laser Light Transport.

Formatvorlage des Untertitelmasters durch Klicken bearbeiten 1/27/15 Passively CEP-stable front end for optical frequency synthesis 1 Ultrafast Optics.

Nd:YAG Solid Laser Xiangyu Zhou 20. Nov Yb fiber laser system on the ground Menlo 1030nm oscillator Grating stretcher (Transmission) SOA pulse.

Room-temperature Burst-mode GHz and THz Pulse Rate Photoinjector for Future Light Sources Yen-Chieh Huang * Chia-Hsiang Chen, Kuan-Yan Huang, Fu-Han Chao.

Lecture 3 Interferometers. Coherence Today’s summary Different kinds of interferometers Multiple beam interferometers: Fabry-Perot resonators – Stokes.

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. (a) Schematic of the noncollinear optical parametric amplification (NOPA) geometry.

LASER SYSTEM STATUS G.Gatti, A. Ghigo, C.Vicario, P.Musumeci, M. Petrarca, S. Cialdi, D. Filippetto REVIEW COMMITTEE 16/11/05.

Yb:YAG Regenerative Amplifier for A1 Ground Laser Hut Rui Zhang ACCL Division V, RF-Gun Group Nov 20, 2015 SuperKEKB Injector Laser RF Gun Review.

Status of the SPARC laser and “dazzler” experiments

SWNT Periodic Table Primary and secondary gap semiconductors.

Outline ATF’s Terawatt CO2 laser overview BESTIA concept (as presented at AAC ’14) Progress since AAC ’14 Current vision of the roadmap to 100 TW.

Laser System Upgrade Overview

ILC/ATF-2 Laser System Sudhir Dixit (JAI, Oxford)

Nd:YAG Solid Laser 3-2 / A-1 on the ground

Figure 1 A simplified Jablonsky diagram of the singlet and triplet excited states, potentially mediating crosslinking of the nucleic acid bases and the.

High Energy Mid-IR Drive Laser for Dielectric Laser Acceleration

Principle of Mode Locking

Kansas Light Source Laser System J. R. Macdonald Laboratory

Squeezed Input Interferometer

LASER SYSTEM STATUS G.Gatti , A. Ghigo , C.Vicario , P.Musumeci ,

X-ray Pump-Probe Instrument

LCLS Injector Laser System Paul R. Bolton, SLAC April 24, 2002

Injector Drive Laser Update

Presentation transcript:

CW lasers Four 15W green DPSS pump lasers One 25W blue-green (+UV) argon pump laser Three Ti:Sa ~700–1000nm ring lasers (<50kHz) Two dye >410nm ring lasers (<100 and <1000kHz) Five external cavity doublers for >205–500nm Four wavelength meters (<10MHz)

Ultrafast – high repetition rate 18W green DPSS pump laser Ti:Sa ~700–1000nm, 76MHz oscillator (<200fs and 2ps) Sync-pumped ring OPO 525–660nm and near-IR Dual pulse-picker, 2 nd and 3 rd harmonic generator Ti:Sa 780–840nm, 50–300kHz regen. amplifier(<160fs) 2 nd and 3 rd harmonic generator visible OPA (480–700nm and near-IR) Near-IR OPA (1100–2400nm) with DFG to >10,000nm

Ultrafast – ultrashort pulse Ti:Sa oscillator (30–100nm bandwidth) with CEP stabilisation Dual spatial light modulator (phase and amplitude) Ti:Sa 1kHz regen. and single-pass amplifier ( 6mJ) 2 nd, 3 rd and 4 th harmonic generators Deep-UV–near-IR OPA (189–2600nm) UV–near-IR OPA (240–2600nm IR OPA (1140–18,000nm)

Ultrafast – femto- and picosecond Ti:Sa 710–990nm oscillator (100fs) Ti:Sa 1kHz regen. amplifier ( 3mJ) two NOPA (250–1050nm with gaps around 400/800nm, >12fs) one IR OPA (1140–20,000nm) Ti:Sa 1kHz regen. and single-pass amplifier (~1ps, >6mJ) Deep-UV–near-IR OPA (187–2880nm) UV–near-IR OPA (235–2700nm) vis–IR OPA (525–13,200nm)

Nanosecond – mid-band OPO Nd:YAG 1064/532/355/266nm pump laser (<900mJ) mid-band vis–near-IR OPO 410–2500nm (7cm -1 ) SHG and SFM for 215–410nm narrow-linewidth (<0.04 cm -1 ) dye laser with SHG

UV –Near-IR spectrophotometer Spectrophotometer with PMT, InGaAs & PbS detectors for 175–3300nm automated Universal Reflectance Attachment (with polarisers) 150mm Integrating Sphere (PMT and InGaAs)