Purpose: Applications for compact laser accelerator
Subject: Particle acceleration

Research facilitiesParticle pecies/WavelengthType of light sourcePerformance
Max Born Institute     100 TW + 40 TW synchronized High Field Laser System
Principle method TNSA - , RPA - , and LWFA schemes
Research topics Physics of laser - Particle (ions and electrons) acceleration
LOA electron Ti:Sapphire 2.5J, 25fs, 100TW, 10Hz
Principle method Wake field acceleration, Ion acceleration
Research topics High speed biological and molecular reaction Nonlinear optics
University of Texas      
Principle method Wake field acceleration
Research topics Cancer treatment Laser accelerator
LBNL     0.5J, 45fs, 1.5x1019W/cm2
Principle method Wake field acceleration
Research topics PET Laser accelerator X-ray source
Spectra Physics/ BNL      
Principle method Wake field acceleration
Research topics Laser accelerator
ORION, Stanford University     266nm, 1mJ
Principle method Plasma acceleration, combination with 350 MeV Linac
Research topics Laser collidar
Brookhaven National Laboratory     50mJ, 100fs
Principle method Wake field acceleration Combination with 200MeV Linac
Research topics Laser electron source X-ray source
FOCUS, University of Michigan     100TW, 12fs
Principle method Wake field acceleration
Research topics Laser electron source
NRL      
Principle method Wake field acceleration
Research topics x-ray application
LLC     40TW,30fs,1J
Principle method Wake field acceleration
Research topics Laser accelerator
KERI/ KAERI/ KAIST   Ti:Sapphire/ Nd:glass hybrid 2TW, 1.4J, 700fs
Principle method Wake field acceleration
  Laser accelerator
RRCAT, Indore     100TW + 7TW, 25-40 fs, Ti-sapphire
Principle method Laser wakefield acceleration
Research topics Laser accelerator
VULCAN, Rutherford Appleton Laboratory   Nd:glass 160J, 650fs
Principle method Relativistic electron acceleration
Research topics Laser accelerator
UCLA   TW CO2 laser ~TW, 10ps, 10.3µm, 10.6µm
Principle method Wake field acceleration
Research topics Laser accelerator
ASTRA, Rutherford Appleton Laboratory positron Ti:Sapphire 225mJ, 60fs
Principle method Wake field acceleration, ion acceleration
Research topics Laser accelerator High energy proton generation Large size screen display
Fox Chase Cancer Center ion    
Principle method Ion acceleration
Research topics Cancer treatment
APRI (GIST) electron Ti:sapphire 0.75 J, 25 TW, 30 fs, 10 Hz
Principle method Wake field acceleration
Research topics Laser accelerator
 

Purpose: Nuclear power application
Subject: Energy application

Research facilitiesParticle pecies/WavelengthType of light sourcePerformance
LLNL High power laser Nd:glass 1.8MJ, 1.053µm
>1PW, 30kJ, ~100fs, 1.053µm
       
Principle method Laser implosion & Fast ignition
Research topics Laser fusion
Max Planck Institute     1.053µm
Principle method Laser implosion
Research topics Laser fusion
Rutherford Appleton Laboratory     100TW, 2.8kJ, 1.053µmi1PW, 500J, 500fsj
Principle method Fast ignition
Research topics Laser fusion High field physics
CEA     MJ size, 1.053µm
Principle method Laser implosion Fast ignision
Research topics Laser fusion Astrophysics
LLNL   Diode pump solid state laser 100J, 2~10ns, 10Hz, 1.054µm
Principle method Laser implosion
Research topics Laser fusion
PALS, Institute of Physics   Gas laser 1kJ, 400ps, 438nm
Principle method Laser implosion
Research topics Laser fusion Laser plasma ion source Microbiology
 

Purpose: Nuclear power application
Subject: Energy application

Research facilitiesParticle pecies/WavelengthType of light sourcePerformance

CUOS, University of Michigan Ultra short pulsed laser Ti:Sapphire 10TW, 100fs
Principle method Interaction between high electric field and matter
Research topics High field physics Medical application (eye surgery)
Max Born Institute     100TW, 35fs, 10Hz
Principle method Interaction between high electric field and matter
Research topics High field physics Automobile processing
ASTRA, Rutherford Appleton Laboratory     40fs, 500mJ
Principle method Interaction between high electric field and matter
Research topics Detection of explosive, Tightening molecular binding, High speed processing in molecular ions
LOA     ~PW
Principle method Interaction between high electric field and matter
Research topics Medical application, PET, High field physics
INRS, Universite du Quebec     2TW, 500fs and 10TW, 60fs
Principle method Interaction between high electric field and matter
Research topics Laser plasma interaction
RRCAT, Indore - - 100TW + 7TW, 25-40 fs, Ti-sapphire
Principle method Interaction of intense light with matter
Research topics X-ray emission, x-ray applications
TIFR, Mumbai     100TW + 20TW, 25-40 fs, Ti-sapphire
Principle method Interaction of intense light with matter
Research topics X-ray emission, giant magnetic fields, cluster ionization
Politecnico di Milano     <10fs, wavelength tunable
Principle method Ultara short pulse generation, Parametric amplification, Pulse compression with hollow fiber
Research topics High speed spectroscopy of molecular system, At-second coherent x ray generation, Laser material processing
Shanghai institute of optics and fine mechanics     23TW, 33.9fs
Principle method Optical parametric chirped pulse amplification
Research topics Quantum optics, High intensity high speed laser physics
EPP, University of Alberta     5fs
Principle method Pulse compression with gas capillary
Research topics High order harmonics generation in water window region, x-ray microscopy
University of Vienna     ~ Atseccond
Research topics Quantum control, time resolved material observation, control, laser chemistry
LULI   Nd:glass Sub-picosecond, 100TW
Principle method Interaction between high electric field and matter
Research topics Astronomy Terrestrial physics
Jena University   Diode laser  
Research topics Nuclear transformation
APRI, GIST XUV, Coherent X-ray Ti:sapphire 0.75 J, 25 TW, 30 fs, 10 Hz
Principle method wakefield acceleration
Research topics Laser accelerator
EPP, University of Alberta Ultra-short UV laser Ce:LLF pumped by KrF 100fs, 305nm
Principle method Ultra short pulsed laser interaction with matter
PHELIX, GSI Heavy ion beam Ti:Sapphire
Nd:glass hybrid
500J, 500fs, 1PW
Principle method Interaction between heavy ion beam and high power laser
Research topics Heavy ion beam interaction with matter
LLNL Coherent x ray X-ray laser ~µJ, 12.1nm
Principle method Transient collisional excitation
Research topics Interference observation
Max Born Institute     ~µJ, 32nm
Principle method Radiation application
Research topics  
Paris-Sud University     ~µJ, 14nm
Principle method  
Research topics Plasma interferometer
Rutherford Appleton Laboratory     7.3nm
Principle method Electron collisional excitation
Research topics Radiation application
DGL. Institute of Physics     21.2nm
Colorado State University     3.5mW, 46.9nm
Principle method Discharge excitation
Research topics Obserbvation of biological specimen, optical examination
DESY   X-ray FEL 230MeV, 80nm (target : 6nm)
Principle method Undulator
Research topics Observation of biological specimen, solid state physics, astrophysics
SLAC     15GeV, 0.1~0.15nm
Principle method Undulator
Research topics Observation of biological specimen, solid state physics, astrophysics
Argonne National Laboratory     217MeV, 530nm (under upgrading to 700Mev, 51nmj
Principle method Undulator
Research topics To provide high brightness and high temporal resolution synchrotron radiation source
SPARX, INFN     itarget : 1.5nm in 2007j
INFN-ELETTRA     itarget : 10nm in 2007 and 1.2nm in 2009j
4GLS, Daresbury Laboratory     600MeV, 12nm~75µm
Research topics Combination of IR-FEL, VUV-FEL, XUV-FEL, and synchrotron radiation
CHESS, Cornell University Ultra short pulsed x-ray ERL-LS 7GeV, 100mA, 100fs, 1.3GHz
Research topics X-ray research
Brookhaven National Laboratory     100fs,106~108 photons/pulse
Principle method Super conducting linac
Research topics High speed structural dynamics, high speed process diagnostics, microscopy, coherent x-ray scattering, structural biologu
LBL     10-100fs, 10kHz, 1-10keV
Research topics High speed x-ray science, pump and probe experiment
ERLSYN, Erlangen University     3.5GeV, 200mA, 1.6mrad, 100fs
Research topics Chemistry, biology, crystallography, material science
Jefferson Laboratory NIR and UV ERL-FEL 10kW
Research topics Photo nuclear reaction, material control, non-thermal processing
BINP     (20MeV ERL)
Duke University ƒÁ ray (~250MeV) FEL 1GeV, 193~400nm
Principle method Inverse Compton scattering
Research topics Photo nuclear reaction, solid state physics
 
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