Optical Conversion of Ultra-Fast Laser Pulses

  • Yeda
  • From Israel
  • Responsive
  • Patents for licensing

Summary of the technology

Ultra-fast lasers are highly used in both academia (to monitor chemical & biological reactions) and industry (for submicron resolution products). Mainly, the emission source of these lasers is Ti-Sapphire, which produces very short pulses (about ten femtoseconds – 10-14sec) but only in the Near Infrared (NIR) region (700nm-1000nm).
Producing ultra-fast pulses in the visual range is very limited. Prof. Yaron Silberberg and his coworkers developed a technique for converting these ultra-fast pulses in the NIR to the visible spectrum while keeping the pulse duration in a wide range of wavelengths and maintaining high conversion efficiency.

Yeda
Yeda

Details of the Technology Offer

The Need

Femto-lasers are highly important devices in both academia and industry. In academia, these lasers are mainly used for reaction studies (Nobel prize 1999) where the laser pulse is shorter than the reaction duration. In theindustry, Femto lasers are being used to create high-resolution products. The high resolution is due to the high selectivity of etching between the illuminated/non-illuminated area, which are caused by low heat transfer in the Femto timescale. One of the limits to gain even higher resolution is the optical resolution, which is inversely correlated with the wavelength. Most Femto-lasers are based on Ti-sapphire crystals, limited to the NIR spectral region (700nm-1000nm). Therefore, the capabilities of these lasers is limited in terms of matter-radiation interactions and resolution.

The Solution

While most conversion systems are limited to a narrow range of wavelengths or suffer from low efficiency, this system called “adiabatic grating” overcomes both issues. This system can operate on sum-frequency generation (SFG) and difference frequency generation (DFG)[i].

[i] Suchowski, H., Bruner, B.D., Ganany-Padowicz, A. et al. Adiabatic frequency conversion of ultrafast pulses. Appl. Phys. B 105, 697–702 (2011). https://doi.org/10.1007/s00340-011-4591-3 [1]

Technology Essence

This device is based on a new method of adiabatic wavelength conversion. The device works whereby a strong narrow-band pump is introduced into the crystal and a weaker pulse to be converted. This conversion is realized in a quasi-phase-matched nonlinear crystal, where the period is tuned adiabatically from strong negative phasemismatch to strong positive phase-mismatch (or vice versa). This results in the efficient transformation of the weaker pulse.

Applications and Advantages

Applications

High-resolution lithography & texturing

Generation of ultrafast visible radiation for chemical & biological research

Advantages

High efficiency of the conversion process.

Simple and compact

Insensitive to the deviations in alignment, no dependence of the angle incidence beam or of temperature Frequency converter of both broadband signals and ultra-short pulses.

Market Opportunity

This technology can be implemented in existing ultra-fast lasers devices for enabling visual irradiation mode.

Intellectual property status

  • Granted Patent
  • Patent application number :USA Granted: 8,331,017

Related Keywords

  • Electronic engineering
  • Apparatus Engineering
  • Energy Technology
  • Physical Sciences and Exact Sciences
  • Physics
  • Optical Technology related to measurements

About Yeda

Yeda ("Knowledge" in Hebrew) Research and Development Company Ltd. is the commercial arm of the Weizmann Institute of Science (WIS) and is the second company of its kind established in the world.

WIS is one of the world’s leading multidisciplinary basic research institutions in the natural and exact sciences. It is located in Rehovot, Israel, just south of Tel Aviv. It was initially established as the Daniel Sieff Institute in 1934, by Israel and Rebecca Sieff of London in memory of their son Daniel. In 1949, it was renamed for Dr. Chaim Weizmann, the first President of the State of Israel and Founder of the Institute.

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