Ελληνικά

Advanced OPA enhances the energy of attosecond imaging ultra short pulses

871
2024-05-11 16:03:34
Δείτε τη μετάφραση

The attosecond level ultra short laser pulse provides a powerful method for detecting and imaging ultra short processes, such as the motion of electrons in atoms and molecules.

Although ultra short laser pulses can be generated, generating ultra short and high-energy pulses is a continuous challenge. In order to expand the photon energy, photon flux, and continuous bandwidth of isolated attosecond pulses, it is necessary to develop stable, high-energy, and long wavelength single period laser sources.

Researchers at the RIKEN Advanced Photonics Center have developed a method for generating high-energy single cycle MIR pulses. This method is called Advanced Dual Chirp Optical Parametric Amplification (Advanced DC-OPA), which increases the energy of a single cycle laser pulse by 50 times and can be used to generate extremely short pulses with a peak power of 6 terawatts.

"At present, the output energy of attosecond lasers is extremely low," said researcher Eiji Takahashi. "If they are to be used as light sources for a wide range of fields, increasing their output energy is crucial."

Researchers used two types of nonlinear crystals to develop advanced DC-OPA - bismuth triborate oxide (BiB3O6) and lithium niobate doped with magnesium oxide (MgO: LiNbO3). The crystal magnifies the complementary regions of the spectrum.

Takahashi said, "The advanced DC-OPA for amplifying single cycle laser pulses is very simple, based only on a combination of two nonlinear crystals." "What surprised me was that such a simple concept provided a new amplification technology and brought breakthroughs in the development of high-energy, ultrafast lasers."

The damage threshold of nonlinear crystals limits the energy scalability of OPA under high pulse energy. Takahashi said, "The biggest bottleneck in the development of high-energy and ultrafast infrared laser sources is the lack of effective methods for directly amplifying single cycle laser pulses." "This bottleneck results in a millijoule barrier in the energy of single cycle laser pulses."

The advanced DC-OPA method overcomes the bottleneck of pulse energy scalability using single cycle IR/MIR laser systems.

The team expects that advanced DC-OPA methods will drive the development of attosecond laser technology forward. Takahashi said, "We have successfully developed a new laser amplification method that can increase the intensity of a single cycle laser pulse to terawatt level peak power." "This is undoubtedly a significant leap in the development of high-power attosecond lasers."

Due to the excellent energy scalability of the advanced DC-OPA method, laser pulses with higher pulse energy and fewer pulse duration cycles can be achieved based on different crystal combinations and higher pump energy. The extension of pulse energy can promote high-throughput detection conditions in strong field physics research.

Takahashi believes that by capturing the motion of electrons, attosecond lasers have made significant contributions to fundamental science. "They are expected to be used in a wide range of fields, including observing biological cells, developing new materials, and diagnosing medical conditions," he said.

The ultimate goal of Takahashi is to exceed the speed of the attosecond laser and generate shorter pulses. "By combining a single period laser with higher-order nonlinear optical effects, it is possible to generate optical pulses with a time width of Ze seconds (one Ze second=10-21 seconds)," he said. "My long-term goal is to open the door to research on Zeosecond lasers and open up the next generation of ultra short lasers after Atosecond lasers."

Source: Laser Net

Σχετικές προτάσεις
  • Inertia Enterprises focuses on the commercialization of fusion energy

    Inertia Enterprises, a private fusion power start-up, based in San Francisco, CA., has announced the formation of the company, co-founded by fusion energy pioneer Dr. Andrea “Annie” Kritcher, fusion power plant designer Prof. Mike Dunne, and successful tech entrepreneur, Jeff Lawson.Underpinned by this team of experts spanning science, engineering, technology and business, Inertia stated that it i...

    08-29
    Δείτε τη μετάφραση
  • German optoelectronic component manufacturer collaborates heavily to develop VCSELs lasers

    This collaboration deeply integrates the unique expertise and cutting-edge technological achievements of both companies in the field of optoelectronics, aiming to broaden the boundaries of optoelectronics innovation.EPIGAP OSA Photonics GmbH, as a leader in the research and manufacturing of optoelectronic components in Germany, is deeply rooted in multiple fields such as medical technology, indust...

    2024-08-06
    Δείτε τη μετάφραση
  • Turn to 4-inch wafers! Dutch Photonics Integrated Circuit Enterprise Announces Production Expansion and Price Reduction

    Recently, SMART Photonics, a Dutch photonic integrated circuit manufacturer, announced a major decision to transfer its entire production capacity from 3-inch wafers to 4-inch silicon substrates, thereby expanding the production scale of photonic chips and significantly reducing chip prices.According to the company, SMART Photonics is one of the first photonic integrated circuit foundries to provi...

    2024-02-03
    Δείτε τη μετάφραση
  • Two photon absorption quantum mechanism breaks through the resolution and efficiency limits of optical nanoprinting

    Recently, a research team from the School of Physics and Optoelectronic Engineering at Jinan University has elucidated for the first time the time-dependent quantum mechanism of two-photon absorption and proposed a two-photon absorption (fpTPA) optical nanoprinting technology based on few photon irradiation, successfully breaking through the bottleneck of traditional two-photon printing technology...

    03-06
    Δείτε τη μετάφραση
  • The market accounts for up to 70%! Meere is continuously expanding its market layout

    According to Korean media reports, Meere, a semiconductor and display equipment manufacturer from South Korea, is continuously expanding its presence in the high stack semiconductor market, including its HBM business.In fact, Meere itself is the world's top manufacturer of display edge grinding mechanisms, with a market share of up to 70%. It is based on its accumulation of display microfabricatio...

    2024-06-25
    Δείτε τη μετάφραση