ADVANCED TEMPORAL CONTROL IN HIGH ENERGY … advanced temporal control in high energy ultrafast...
Transcript of ADVANCED TEMPORAL CONTROL IN HIGH ENERGY … advanced temporal control in high energy ultrafast...
WWW.SPARK-LASERS.COM
ADVANCED TEMPORAL CONTROL IN HIGH ENERGY ULTRAFAST LASERS DEDICATED
TO MICROMACHINING AND BIOMEDICAL APPLICATIONS
SPARK LASERSPascal Dupriez, CEO and Founder
EPHJ, Geneve
June 13th, 2018
WWW.SPARK-LASERS.COM
OUTLINE
• Context
• Applications of ultrafast lasers
• Temporal control of ultrafast lasers
• Examples of applications: • Micromachining
• 3D bioprinting
• Diagnostic on high energy laser facility (LMJ)
• Imaging in neurosciences
• Conclusion
2
WWW.SPARK-LASERS.COM
SPARK LASERS
• Ultrafast laser manufacturer : femtosecondand picosecond
• Located near Bordeaux, France.
• An experienced team driven to manufacture high quality lasers.
• Key international partnerships to pursueSpark Lasers’ development.
WWW.SPARK-LASERS.COM
COVERING VARIOUS PULSE REGIME SPACE
4
Frequency
Ene
rgy
SIRIUS
DIADEM
ALTAIR
ALCOR
ANTARES Femtosecond
Femtosecond
WWW.SPARK-LASERS.COM
MICROMACHINING APPLICATIONS
5
CIGS SCRIBING & SELECTIVE ABLATIONSAPPHIRE DICING
GLASS CUTTING& DRILLING
OPHTALMOLOGYIMPLANTABLE MEDICAL DEVICES CONSUMER
ELECTRONICS
ULTRAFAST LASERNANOSTRUCTURING
LUXURY INDUSTRY MICROFLUIDICS
WWW.SPARK-LASERS.COM
EXAMPLE OF APPLICATIONS, PROCESSED WITHFEMTOSECOND LASER DIADEM
Stent cutting –500 µm thickPLLA stent cutting
Processed with fs laser : DIADEMSurface grating on polished SS
Inner glass white marking
Matrix of 50 µm x 50 µm ETCHING of 150 nm Ag
layer on PMMA
500 µm thick Asahi Corning glass
WWW.SPARK-LASERS.COM
BIOPHOTONICS/SCIENTIFIC APPLICATIONS
7
NON-LINEAR OPTICSCOHERENT ANTI-STOKESRAMAN SPECTROSCOPY
SEMI-CONDUCTOR INSPECTION
FLUORESCENCE LIFETIMEIMAGING (FLIM)
NEUROSCIENCES OPTOGENETICS
OPO PUMPING
MULTI-PHOTON IMAGING
3D BIOPRINTING
WWW.SPARK-LASERS.COM
TEMPORAL CONTROL OF ULTRAFAST LASERS
• Frequency adjustment from single-shot to multi-MHz
• Pulse divider
• Burst generation : fixed or variable pulse interval
• Pulse frequency synchronization
• Pulse on demand : standard and ps range timing jitter
8
WWW.SPARK-LASERS.COM
LASER DESIGN FOR LOW TIMING JITTER PULSE ON DEMAND
9
Seeder Amp 1 Amp 2 Amp 3 AOMAOM
Electronic control
Trigger signal
Pulse synchronization
Pulse selection
pulse control
Power controlPulse dividerSingle shot
Burst modePulse divider
Free runningActive control
WWW.SPARK-LASERS.COM
TIMING JITTER WITHOUT ACTIVE CONTROL
10
Timing jitter = 25 ns
WWW.SPARK-LASERS.COM
LASER ASSISTED BIOPRINTING
• 3D printing living cells to produce tissues or organs
• Based on Laser Induced Forward Transfer (LIFT) : projection of living material onto a substrate
11
https://www.iqo.uni-hannover.de/1862.html Scientific Reports, volume 7, Article number: 1778 (2017)
WWW.SPARK-LASERS.COM
BIOPRINTING WITH SPARK LASERS
• In collaboration with
• Requirements:• High energy stability
• High temporal control between spots : low timing jitter pulse-on-demand
12
WWW.SPARK-LASERS.COM
PRINTING LIVING CELLS WITH SPARK LASERS
2D view of cells printed in the predefined pattern with SPARK Lasers ultrashort pulses.
13
Live/dead test : 100% success (all cells lived)
Microscope views of printed cells
WWW.SPARK-LASERS.COM
CONTEXT : PLASMA DIAGNOSTICS ON LMJ* FACILITY
14
*Laser MegaJoule : • High power laser facility near Bordeaux (France)
• Designed, built and operated by the CEA
• Validation of theoretical models concerning the behavior of matter in extreme conditions
WWW.SPARK-LASERS.COM
STREAK CAMERA BASICS
15
Fenteaccélératrice
Electrode F1(préfocalisation
temporelle)
ElectrodesB1a et B1b(obturatrices)
Lentillequadrupolaire LQ
(focalisation spatiale)
Electrode F2(focalisation temporelle)
Electrode O2(focalisation temporelle+ diaphragme de sortie)
Plaques réuniesà la masse
Ecran luminophore
Plaquesde déviation
Photocathode Pk
Faisceau lumineuxincident
Faisceauélectronique
Photon/electron Conversion
Spatial & temporal shaping
Drift Electron/photon conversion Spatial axis
Tim
e ax
is
Useful signal
Fiducial timing
WWW.SPARK-LASERS.COM
CEA REQUIREMENTS VS. LAB RESULTS
16
• Single-shot laser
• Wavelength: 266 nm
• Jitter < 15 ps (RMS)
• Amplitude > 30 µJ / pulse
OK
OK
< 12 ps - OK
40 µJ - OK
Example over 14 hours of operation:
• σ ~ 12ps rms
• 67ps pp Measured with a GFT2002Time interval meter
WWW.SPARK-LASERS.COM
~10 PS SINGLE SHOT TIMING JITTER (RMS)
17
TRIGGER SIGNAL
ZOOMED OPTICAL PULSE
OPTICAL PULSE
10.9 ps rms(active control)
WWW.SPARK-LASERS.COM
UV TIMING FIDUCIAL FOR X-RAY STREAK CAMERA : EXPERIMENTAL RESULTS
18
Optical combT0 ChronometryJitter < 15 ps (RMS)
Useful data
Spatial axis (pixel)
Tim
e ax
is(1
pix
el
20
ps
)
WWW.SPARK-LASERS.COM
ULTRAFAST LASERS FOR NEUROSCIENCES
Femtosecond pulses provide two-photon excitation for imaging and neuronal excitation
19
Excitation at1040-1060 nm
MeasurementAt 920 nm
ALCOR-920<140fs at 920 nm2W average power
ALTAIR IR-20<140fs at 1040 nm20 W average power
- GDD precompensation on eachwavelength- Pulse train synchronization and interleaving (F-Sync)
WWW.SPARK-LASERS.COM
ULTRAFAST LASERS FOR NEUROSCIENCES
Femtosecond pulses provide two-photon excitation for imaging and neuronal excitation
20
Excitation at1040-1060 nm
MeasurementAt 920 nm
ALCOR-920<140fs at 920 nm2W average power
ALCOR-1040<140fs at 1040 nm2 W average power
- GDD precompensation on eachwavelength- Pulse train synchronization and interleaving (F-Sync)
WWW.SPARK-LASERS.COM
NEUROSCIENCES : 2-PHOTON MICROSCOPY
Images of neurons in slices of mouse cortex expressing the fluorescent protein mCherry (obtained with Altair Laser)
21
Courtesy of Boston University, USA
WWW.SPARK-LASERS.COM
CONCLUSION
• Tremendous growth in the variety of applications of ultrafast lasers
• Micromachining and recently developed fields such as 3D bioprinting and Neurosciences are pushing technical boundaries and requiring more advanced features from ultrafast lasers
• Spark Lasers have developped lasers offering on-the-fly pulse-on-demand with timing jitter of :• 25 ns without active control• Down to 10ps with active control
• The options are part of complete range of ultrafast lasers answering today’s challenges thanks to unique features :
• High optical performances• High-quality compact and robust package• Advanced high-speed electronics• Intuitive interface
22