Titanium Sapphire Femtosecond Amplifier
A compact, high-energy femtosecond laser delivering up to 15 mJ per pulse with tunable pulse width, high beam quality, and industrial-grade stability for ultrafast applications.
Key Features:
✔️Single-stage regenerative amplifier provides pulse energies up to 15 mJ with selectable repetition rates from 1 Hz to 1 kHz
✔️Pulse width adjustable from 30 fs to 1 ps, supporting a broad range of ultrafast experiments
✔️Large mode area amplification and dual-end pumping ensure excellent beam quality and pointing stability
✔️Sealed module and integrated casing offer industrial-grade reliability even outside laboratory conditions
✔️Synchronization and phase-locking functions enable precise timing for complex optical setups
✔️Optional second and third harmonic generation modules for extended wavelength capabilities
✔️Customizable central wavelength and pulse width for application-specific requirements
✔️Compact, high-integration mechanical design minimizes footprint while maintaining robust performance
Titanium Sapphire Femtosecond Amplifier
Titanium Sapphire Femtosecond Amplifier Lancer series utilizes single-stage regenerative amplification architecture generating 3-15 mJ pulse energy across four model variants. Central wavelength operates at 780-820nm nominal specification with optional frequency doubling and tripling modules for wavelength conversion. The Lancer-D10 and Lancer-N10 models deliver 7-15 mJ selectable energy at 10Hz and 100Hz repetition rates respectively, while Lancer-K3 outputs exceed 3mJ at 1kHz with ≤35fs pulse duration.
Lancer-K7 configuration produces over 7mJ at 1kHz repetition with pulse width adjustability from 30 femtoseconds to 1 picosecond. Large mode area amplification combined with dual-end pumping topology achieves TEM00 beam quality with M²<1.3 measurement. Power stability maintains <0.5-1.0% RMS across operating conditions. Temporal contrast ratios exceed 1000:1 pre-pulse and 100:1 post-pulse suppression. Beam pointing stability remains below 10μrad RMS with <0.5mrad divergence angle. Horizontal linear polarization state persists throughout amplification stages.
Materials science laboratories in defense research centers deploy the Titanium Sapphire Femtosecond Amplifier for laser-induced breakdown spectroscopy identifying chemical composition in unknown substances. Navy underwater acoustic research facilities utilize ultrafast pulses for nonlinear optical studies in seawater propagation modeling. Airforce hypersonic vehicle programs investigate material response under extreme thermal loading using femtosecond pump-probe techniques.
Tactical Supply Pakistan delivers ultrafast laser amplification systems supporting advanced research infrastructure and precision manufacturing capabilities, providing femtosecond technology with industrial reliability standards and customizable output configurations meeting specialized operational requirements.
Can the regenerative amplifier architecture support external seed laser integration for wavelength tunability?
Yes, the single-stage regenerative cavity accepts external seed inputs within the gain bandwidth, allowing wavelength tuning through seed laser adjustment, though optimal amplification efficiency occurs near the 800nm titanium sapphire gain peak.
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