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As a leading company in laser research and development, TRUMPF offers a wide range of laser beam sources based on Innoslab, fiber, gas and disk technology. The technological diversity allows unique laser parameters and flexible solutions for scientific applications in (bio)medicine, electronics and foundational research.

Impulses for science 

Looking for new solutions for your research? Our state-of-the-art lasers provide precise and reliable power to help you, as researchers and scientists in various disciplines, make groundbreaking discoveries and perform complex experiments.  

Ultrafast thin-disk laser and pulse compression

InnoSlab

CO2 lasers

Fiber lasers

Short and ultrashort pulse lasers

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The diverse applications of laser technology in research

The use of laser light has proven to be an extremely versatile and powerful method that is used in numerous areas of science. From biomedical imaging to non-linear processes to spectroscopy and beyond, the applications of laser technology are almost limitless. Be inspired by the applications and discover new ways in which laser light can support your scientific goals. 

Green laser at peak

How the laser prevents lightning strikes

Preventing damage caused by lightning strikes - that is one of the aims of the EU "Laser Lightning Rod" project.  TRUMPF has developed a special laser for this purpose.  High-intensity laser pulses are used as lightning rods by a laser on the Swiss mountain Säntis. 

Generation of higher harmonic radiation

High Harmonic Generation (HHG): Focused ultrashort laser pulses generate spatially and temporally coherent EUV radiation with pulse durations in the attosecond range. 

Attosecond spectroscopy

Attosecond pulses can be used to analyze fundamental processes in atomic physics, quantum chemistry, biology and medicine.

THz generation

Ultrashort laser pulses can generate light pulses in the THz range, which are used for research in materials science.

HHG beamlines for spectroscopy and imaging in the EUV/XUV

HHG and cavity enhancement: The fiber-based ultrashort pulse lasers from AFS, combined with pulse post-compression methods, are ideal drivers for the generation of higher harmonic radiation. These HHG beamlines can be used for spectroscopy and imaging in the EUV/XUV.

Amplification of laser pulses

Due to their high average power and high pulse repetition frequencies, fiber lasers are ideally suited as front-ends for amplifier setups.

Fusion research

Wavelength-stabilized and power-stabilized CO2 lasers are indispensable tools for plasma density control systems such as those used in ITER, the world's largest fusion experiment.

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Find out now how our state-of-the-art lasers can advance your scientific projects - contact us for a consultation.

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Who is behind the scientific lasers from TRUMPF?

TRUMPF Scientific Lasers, ACCES, AMPHOS and AFS offer the best laser solutions for science. By working together with strong partners, at TRUMPF we can develop and manufacture customized laser systems for scientific applications. Using creative ideas, our management team and our employees create new technical solutions for your future-oriented technologies. 

TRUMPF Laser SE
Dr. Björn Dymke, CEO 

TRUMPF Scientific Lasers GmbH + Co. KG
Dr. Thomas Metzger, CTO

AMPHOS GmbH
Dr. Claus Schnitzler, CEO

Access Laser Co.
Gordon Bluechel, CEO & Managing Director

Active Fiber Systems GmbH
Bettina Limpert, CEO

Let us turn your vision into reality - contact us today!

Find out now how our state-of-the-art lasers can advance your scientific projects - contact us for a consultation.

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