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Oscillators of FEMTOLASERS
INTEGRALTM


Product Leaflet INTEGRALTM
OCT (pdf)


Product Leaflet INTEGRALTM
PRO | 20 | 50 (pdf)



Sub - 10 , 20, 50 or 100 fs
up to 400 mW (average)
up to 470 KW (peak)
up to 150 nm bandwidth
Fully integrated ultrafast turn-key Ti:S oscillator
The INTEGRALTM is a fully integrated ultrafast turn key Ti:S oscillator. The low loss cavity enables power levels of > 400 mW with pulses of < 10 fs in duration as well as nearly Gaussian shaped spectra of greater than 120 nm in bandwidth (depending on the INTEGRALTM model). The INTEGRALTM can be operated via a slim line 19" user interface or a computer interface allowing full process-integration.

The daily operation is also possible without laser or physics background since the "hands-off feature" and the "turn-key feature" guarantee operation by just switch on - warm-up - laser working in its parameters. The laser cavity itself is sealed on a cooled base plate, so that no influence of ambient conditions can disturb the laser function. No adjustment is needed, before, during and after operation since the laser includes self-diagnosis and controls.

INTEGRAL OCT
SPECIFICATIONS INTEGRALTM OCT
Bandwidth (FWHM) @ 800 nm ex fiber > 150 nm
Mode locked output power (avg.) ex fiber > 40 mW
Noise (measured 10 Hz - 100 kHz) < 0.05 % rms
Power stability 1) 1%
Length of single mode fiber 5 m
INTEGRAL PRO | 20 | 50 | 100
SPECIFICATIONS INTEGRALTM PRO INTEGRALTM 20 INTEGRALTM 50
Pulse duration < 10 fs < 20 fs < 50 fs
Bandwidth (FWHM) > 100 nm > 40 nm > 15 nm
Mode-locked output power (avg.) 100/200/300/400 mW
Pulse Energy @ 85MHz (nJ) 1.1/2.3/3.5/4.7
Peak power Energy @ 85MHz > 470 kW > 235 kW > 94 kW
Noise (measured at 10 Hz - 100 KHz) < 0.05 % rms
Power stability 1) 1%

Special Features
- Integrated pump source
- Integrated diagnostics system
- Active stabilization of system parameters
- Turn key system
- Sealed cavity
- Low noise
- Ultrashort pulses
- Ultrabroad spectrum (OCT)
- Fiber coupled (OCT)
Applications
- Amplifier seeding
- Coherent THz generation
- Multiphoton microscopy
- Time-resolved spectroscopy
- Pump-probe measurements
- Materials processing
- Thin-film metrology
- Optical Coherence Tomography (OCT)

INTEGRALTM coreTM


Compact & Robust
True ultrafast with ease
Ultra-stable
Sub - 10, 20 or 50 fs
340 MHz of Rep. rate
up to 200 mW (average)
up to 29 KW (peak)
up to 100 nm bandwidth


Product Leaflet INTEGRALTM coreTM PRO | 20 | 50 (pdf)
World's most compact ultrafast Ti:Sapphire laser
SPECIFICATIONS INTEGRALTM coreTM PRO INTEGRALTM coreTM 20 INTEGRALTM coreTM 50
Pulse duration < 10 fs < 20 fs < 50 fs
Spectral width (FWHM) @ 800 nm 10 nm > 100 nm > 40 nm > 15 nm
Mode-locked output power (avg.) > 100 mW > 150 mW > 200 mW
Repetition rate 340 MHz 340 MHz 340 MHz
Peak power > 29 kW > 22 kW > 11 kW
Center Wavelength 800 nm 10 nm
Noise (measured at 10 Hz - 100 KHz) < 0.05 % rms
Power stability 1) 1%
Special Features
- Compact
- Hands-off turn-key operation
- Sealed cavity
- Power stability control
- Ultra low noise
- Temperature stabilized
- Low cost of ownership
Applications
- THz spectroscopy & imaging
- Multiphoton microscopy & imaging
- Optical coherence tomography
- Time resolved spectroscopy
- Nonlinear optics
- Thin-film metrology
INTEGRALTM elementTM
- High power/High energy & Ultra-low noise version of INTEGRALTM

Sub - 9 fs, 10 fs or 20 fs
less than 0.05% power noise
up to 1.5 W (average)
up to 1.2 MW (peak)
up to 150 nm bandwidth
Hands-off


Product Leaflet INTEGRALTM elementTM PRO | 20 | 50 | 100 (pdf)
Fully integrated ultrafast turn-key Ti:S oscillator
SPECIFICATIONS INTEGRALTM PRO INTEGRALTM 20 INTEGRALTM 50 INTEGRALTM 100
Pulse duration < 10 fs < 20 fs < 50 fs < 100 fs
Bandwidth (FWHM) > 100 nm > 40 nm > 15 nm > 10 nm
Mode-locked min. output power (avg.) (mW) 550/600/700/800/1000 600/700/800/1000/1200 mW 600/700/800/1000/1200 mW 800/9001000/1200/1500 mW
Minimum Pulse Energy @ 85MHz (nJ) 6.1/7/8.2/9.4/11.7 7/8.2/9.4/11.7/14.1 7/8.2/9.4/11.7/14.1 9.4/10.5/11.7/14.1/17.6
Peak power Energy @ 85MHz 640-1170 kW 350-705 kW 140-282 kW 94-176 kW
Noise (measured at 1 Hz - 100 KHz) < 0.05 % rms
Power stability 1) 0.05%
Measured over 24 hours after 5 min. warm up
Special Features
- Turn-key operation | Computer interface
- Sealed cavity | Integrated diagnostics system
- Active system parameter stabilization
- Ultrashort pulses | Ultra low noise
- Temperature stabilized laser head
Applications
- Amplifier seeding
- Coherent THz generation
- Multiphoton microscopy
- Ultrafast spectroscopy
- Pump-probe measurements
- Materials processing
- Thin-fi lm metrology

FEMTOSOURCETM fusionTM
- Maximum flexibility and fully integrated Ti:S oscillator

Sub - 9 fs, 10 fs or 20 fs
up to 1.2 W (average)
up to 1.2 MW (peak)
up to 150 nm bandwidth


Product Leaflet FEMTOSOURCETM fusionTM PRO | 20 | M1 | XPRO | BB | XBB (pdf)
Maximum flexibility and fully integrated Ti:S oscillator
FEMTOSOURCETM fusionTM is a model range of ultra compact Ti:Sapphire oscillators combining integrated design and yet customer accessibility ensuring maximum stability and ease of operation. All FS fusionTM models make use of our patented Dispersive Mirror (DM) technology, which is specifically designed for broadband intracavity group delay dispersion compensation. The low-loss high-efficiency cavity design enables a broad range of output power levels with versions starting from 150 mW up to high end versions with more than 800 mW of mode-locked output power. All power levels are available with pulses of either 50, 20 or 10 fs and less in duration.

The extremely compact footprint includes a high reliability pump module and offers outmost flexibility in custom specifications. FEMTOLOCKTM repetition rate stabilization, tunability in bandwidth as well as custom center wavelength are a small selection of a rich list of features available with the FUSIONTM. The FUSIONTM is designed for demanding applications including seeding of amplifier chains, coherent THz generation, time resolved spectroscopy as well as multiphoton processes, benefiting from more than 1 Megawatt of peak power.

fusionTM fusionTM
PRO
fusionTM
20
fusionTM
M1
fusionTM
XPRO
fusionTM
BB
(Broad
- band)
fusionTM XBB
(Broad
- band)
Pulse duration < 10
fs
< 20
fs
< 10
fs
< 9
fs
< 9
fs
< 9
fs
Bandwidth
(FWHM)
@ 800 nm
> 100
nm
> 40
nm
> 80
nm
> 90
nm
> 125
nm
> 150
nm
Mode locked
output power
(avg.) 1)
150 -
800
mW
150 -
1200
mW
1000
mW
800
mW
150 -
500
mW
300
mW
Pulse energy
(mJ)
@ 75 MHz 1)
2 -
10.6 nJ
2 -
16 nJ
12 -
14 nJ
10
nJ
1.2 -
7 nJ
4
nJ
Repetition
rate
75 3
MHz
2)
75 3
MHz
2)
75 3
MHz
75 3
MHz
75 3
MHz
2)
75 3
MHz
Peak power
@ 75 MHz 1)
200 -
1000
kW
100 -
775
kW
> 1.2
MW
> 1.1
MW
130 -
750
kW
> 440
kW
Beam diameter (1/e2) < 2 mm
Polarization > 100:1 (horiz.)
Spatial mode TEM00 (M2 < 1.3)
Noise
(measured at
10 Hz - 100 kHz)
< 0.05 % rms
Power
stability
< 1.0 % rms
1) Factory set
2) Optional 70 - 120 MHz available
3) Measured over 8 hours after 30 min. warm up at constant environmental conditions
Special Features
- Ultrafast pulses | Extreme peak power
- Dispersive mirror cavity | Ultra low noise
- GREENALIGNTM stabilization | Ease of operation
- Outstanding pulse quality | Highest contrast
Applications
- Amplifier | OPCPA seeding
- Coherent THz generation
- Multiphoton microscopy
- Time-resolved spectroscopy
- Pump-probe measurements
- Materials processing
- Thin-film metrology

FEMTOSOURCETM SYNERGYTM
- Maximum flexibility and compact footprint

Sub - 10 fs or 20 fs
up to 1.2W (average)
up to 1.33 MW (peak)


Product Leaflet FEMTOSOURCETM fusionTM PRO | 20 | M1 | XPRO | BB | XBB (pdf)

Product Leaflet FEMTOSOURCETM fusionTM PRO | 20 | M1 | XPRO | BB | XBB (pdf)

Maximum flexibility and compact footprint
FEMTOSOURCETM synergyTM is an ultrafast Ti:Sapphire oscillator, using our patented Dispersive Mirror (DM) technology, which is specifically designed for broadband intracavity group delay dispersion compensation. The system generates sub-10 fs optical pulses with unprecedented quality, stability, and reproducibility. DM systems constitute the ideal solution for a wide range of scientific, industrial, and medical applications enabeling spectral bandwidths of 100 nm and more.

FEMTOSOURCETM twin synergyTM is the combination of two FS synergyTM oscillators on one temperature stabilized base plate, sharing one pump source. This setup results in extremely stable repetition rates of both lasers relative to each other (Optics Express, Vol. 13, No. 22, pp. 9029, October 31, 2003). Each FS synergyTM can be configured individually.

SYNERGYTM PRO PRO HP M1 20 20HP 20UHP
Pulse duration < 10
fs
< 10
fs
< 10
fs
< 20
fs
< 20
fs
< 20
fs
Bandwidth (FWHM) @ 800 nm > 100
nm
> 100
nm
> 80
nm
> 40
nm
> 40 nm > 40
nm
Mode locked output power (avg.) 1) > 500 mW
@ 5 W
> 800 mW
@ 8 W
> 1000 mW
@ 10 W
> 500 mW
@ 5 W
> 1000 mW
@ 8 W
> 1200
mW @ 10 W
Pulse energy @ 75 MHz 1) > 6.6
nJ
> 10.6
nJ
> 13.3
nJ
> 6.6
nJ
> 13.3
nJ
> 16
nJ
Peak power @ 75 MHz > 660
kW
> 1060
kW
> 1330
kW
> 330
kW
> 665
kW
> 800
kW
Beam diameter (1/e2) < 2 mm
Beam divergence < 2 mrad
Polarization > 100:1 (horiz.)
Spatial mode TEM00 (M2 < 1.3)
Noise (measured 10 Hz - 100 kHz) < 0.05 % rms
Power stability < 1 %
1) Pump power level given @ 532 nm
2) Measured over 2 hours after 30 min. warm up at constant environmental conditions
twin SYNERGYTM twin synergyTM PRO twin synergyTM 20
Pulse duration < 10 fs < 20 fs
Bandwidth (FWHM) @ 800 nm > 100 nm > 40 nm
Total Mode-locked output power (avg.) > 500 mW @ 5 W (532 nm) 2)
Pulse energy @ 75 MHz 1) > 6 nJ
Peak power @ 75 MHz > 600 kW > 300 kW
Beam diameter (1/e2) < 2 mm
Spatial mode TEM00 (M2 < 1.3)
Polarization > 100:1 (horiz.)
Noise (measured 10 Hz - 100 KHz) < 0.05 % rms
Power stability 1) 1%
1) Measured over 2 hours after 30 min. warmup at constant environmental conditions
2) Higher output power available with higher pump power
Special Features
- Ultrafast pulses | Extreme peak power
- Dispersive mirror cavity
  | Ultra low noise
- Ease of operation
- Highest contrast
- Outstanding pulse quality

Options
- FEMTOLOCKTM repetition rate stabilization
- GREENALIGNTM stabilization & ease of operation
- BEAMALIGNTM active beam pointing stabilization
- FEMTOMETERTM femtosecond autocorrelator
- Custom specifications available on request
Applications
- Amplifier and OPCPA seeding
- THz spectroscopy & imaging
- Optical coherence tomography
- Ultrafast spectroscopy
- Pump-probe measurements
- Materials processing
- Two-photon polymerization
- Thin-fi lm metrology
- Nonlinear optics
- (multiplex) CARS
- Surface enhanced HHG

FEMTOSOURCETM RAINBOWTM
- Broadest bandwidth and shortest pulses

Sub - 7fs
CEP Stabilization
up to 500mW
1030nm Optional


Product Leaflet RAINBOWTM (pdf)
Broadest bandwidth and shortest pulses
FEMTOSOURCETM rainbowTM is an ultrafast Ti:Sapphire oscillator using Dispersive Mirror (DM) technology. Dispersive Mirrors are specifically designed for broadband intracavity group delay dispersion compensation. The system generates the shortest (sub-7 fs), phase stabilized optical pulses commercially available with unprecedented quality, stability, and reproducibility. DM systems constitute the ideal solution for a wide range of scientific, industrial, and medical applications easily delivering more than 300 nm of spectral bandwidth (@ -10 dB).

- Ultrashort Pulses - sub - 7fs
- Stability & Reproducibility
- CEP Stabilization

RAINBOWTM RAINBOW HP UHP DFG CEP
Pulse duration < 7
fs
< 7
fs
< 7
fs
- < 7
fs
Bandwidth @ -10 dB > 300
nm
> 260
nm
> 260
nm
> 300
nm
> 260
nm
Full power short pulse output > 300
mW
> 400
mW
> 500
mW
(> 250
mW)
2)
(> 450
mW)
2)
Pulse energy @ 75 MHz 1) > 4
nJ
> 5.3
nJ
> 6.6
nJ
(> 2.6
nJ)
2)
(> 6
nJ)
2)
Peak power @ 75 MHz > 500
kW
> 670
kW
> 840
kW
(> 420
kW)
2)
(> 750
kW)
2)
CEP-stabilized short pulse output - - - - > 200
mW
CEP-stabilized seed output (not compressed) - - - > 200
mW
> 200
mW
1030 nm output optional optional - optional optional
Compatibility DFG module CEP/DFG module CEP/DFG module includes
DFG module
includes
CEP/DFG module
Beam diameter (1/e2) < 2.5 mm
Beam divergence < 2 mrad
Polarization > 100:1 (horiz.)
Spatial mode TEM00 (M2 < 1.3)
Noise (measured at 10 Hz - 100 kHz) < 0.1 % rms
Power stability 1 %
1) Measured over 2 hours after 30 min. warm up at constant environmental conditions
2) Requires optional switch
Special Features
- Ultrafast pulses | Extreme peak power
- Dispersive mirror cavity | Ultra low noise
- Ease of operation
- Highest contrast
- Outstanding pulse quality

Options
- FEMTOLOCKTM repetition rate stabilization
- GREENALIGNTM stabilization & ease of operation
- BEAMALIGNTM active beam pointing stabilization
- FEMTOMETERTM femtosecond autocorrelator
- Custom specifications available on request
Applications
- Amplifier and OPCPA seeding
- THz spectroscopy & imaging
- Optical coherence tomography
- Ultrafast spectroscopy
- Pump-probe measurements
- Materials processing
- Two-photon polymerization
- Thin-fi lm metrology
- Nonlinear optics
- (multiplex) CARS
- Surface enhanced HHG

FEMTOSOURCETM XL
- Ultra high peak power, high output energy

100nJ - 650nJ
Peak power up to 13MW
Sub - 50 fs
4 - 5 MHz of Rep. rate
0.5W - 2.6W Avg. Power
Ultra high peak power, high output energy
The FEMTOSOURCETM XL represents a new generation of high pulse energy, ultrafast and compact Ti:Sapphire oscillator systems and is based on our patented revolutionary Chirped Pulse Oscillator (CPO) technology. In the XL CPO design a long (chirped) pulse circulates in an extended cavity allowing the pulse energy to build to extraordinarily high levels up to 500 nJ. With Dispersive Mirror (DM) technology (patented by FEMTOLASERS) for low loss intracavity dispersion control, the broadest bandwidth directly from a high energy oscillator is guaranteed. After recompression, the system offers the shortest optical pulses in combination with the highest pulse peak power (> 10 MW) and pulse energy commercially available in a compact, high repetition rate laser system.

FEMTOSOURCETM XL XL 100 XL 200 XL 300 XL 500 XL 650
Pulse energy > 100
nJ
> 200
nJ
> 300
nJ
> 500
nJ
> 650
nJ
Pulse duration 1) < 50 fs
Mode locked output power (avg.) > 0.5
W
> 1.0
W
> 1.5
W
> 2.5
W
> 2.6
W
Bandwidth @ 800 nm > 30 nm
Repetition rate 5.1
MHz
5.1
MHz
5.1
MHz
5.1
MHz
4
MHz
Peak Power > 2
MW
> 4
MW
> 6
MW
> 10
MW
> 13
MW
Beam diameter (1/e2) < 5 mm
Beam divergence < 2 mrad
Polarization > 100:1 (horiz.)
Spatial mode TEM00 (M2 < 1.3)
1) Assumed pulse form sech2
Special Features
- High pulse energy
- Ultra high peak power
- Ultrashort pulses
- Compact footprint
- Integrated compressor
- Temperature stabilized base plate

Options
- Length stabilization with FEMTOLOCKTM
- Continuous variable attenuator
- Pulse picker
- EUROPATM Optical Parametric Amplifier
- XSTM Short Pulse Module
Applications
- Materials processing
- Coherent THz generation
- Multiphoton microscopy
- Ultrafast spectroscopy
- Nonlinear optics