Tunable Wavelength Picosecond Laser 1 kHz repetition rate 210nm to 2300nm

Tunable Wavelength Picosecond Laser 1 kHz repetition rate 210nm to 2300nm

Tunable Wavelength Picosecond Laser 1 kHz repetition rate 210nm to 2300nm. A Tunable Wavelength Picosecond Laser with a 1 kHz repetition rate and a wavelength range from 210 nm to 2300 nm is a high-performance laser system used for precise and versatile light generation. “Tunable wavelength” means the laser’s output can be adjusted to emit light over a broad range of wavelengths, from the ultraviolet (UV) to the near-infrared (NIR) spectrum.

The “picosecond” refers to the duration of the laser pulses, which are extremely short—on the order of one trillionth of a second—allowing for high temporal resolution in applications. The “1 kHz repetition rate” indicates that the laser emits 1,000 pulses per second. enabling continuous or repetitive pulse generation for high-speed measurements or processes. This type of laser is valuable in fields like spectroscopy, materials processing, and biological imaging due to its precision and wide wavelength coverage. It can be used to study various materials. excite molecules, or perform detailed spectroscopic analyses across a vast range of applications.

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About

Wide Wavelength Range (210 nm to 2300 nm): This laser offers an exceptional tuning range, covering the UV to near-infrared spectrum. This makes it versatile for a broad range of scientific, industrial, and medical applications, such as spectroscopy. material characterization, and biological imaging.

Picosecond Pulse Duration: With pulses in the picosecond range, this laser delivers ultra-short bursts of light, providing high temporal. resolution for time-sensitive experiments and precision measurements in fields like nonlinear optics. ultrafast spectroscopy, and laser ablation.

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High Repetition Rate (1 kHz): The 1 kHz repetition rate ensures continuous high-speed pulse generation, making it ideal for applications. requiring high throughput. such as materials processing, femtosecond-like interactions, and high-resolution imaging.

Tunable Output: The ability to tune the laser wavelength allows for customizability. in experiments or applications, enabling users to optimize performance for specific tasks such as selective excitation of molecules, laser-based diagnostics, or targeted material treatment.

Versatile Applications: The laser’s combination of tunability, high repetition rate, and short pulse duration makes it suitable for. a variety of fields, including biomedical research, environmental monitoring, optoelectronics, and fundamental physics research, giving users flexibility across multiple disciplines.

Tunable Wavelength Picosecond Laser 1 kHz repetition rate 210nm to 2300nm

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Applications

The Tunable Wavelength Picosecond Laser. with a 1 kHz repetition rate and a wide wavelength range is used in several industries. due to its versatility and precision. Here are some key industries that rely on such lasers:

  1. Biomedical and Healthcare Industry: These lasers are widely used in biomedical research for applications like tissue imaging, fluorescence microscopy, and time-resolved spectroscopy. They are also utilized in medical. diagnostics and therapeutic treatments, such as laser surgery and photodynamic therapy.
  2. Scientific Research and Academia: In research labs, these lasers are essential for studying ultrafast phenomena, nonlinear optics, spectroscopy, and quantum mechanics. Their tunable nature allows researchers to explore different. wavelengths for various experiments in physics, chemistry, and biology.
  3. Semiconductor and Electronics Manufacturing: In the semiconductor industry, tunable picosecond lasers are used for precise material processing, such as laser ablation, micro-machining, and thin-film deposition, where high. precision and minimal thermal effects are required.

And more

  1. Material Science and Engineering: These lasers are employed in material characterization. including surface analysis, spectroscopy, and nanomaterial research. They help analyze the properties of materials, particularly when studying their behavior under different wavelengths and time scales.
  2. Defense and Security: In the defense sector, picosecond lasers are used for a variety of applications, such as LIDAR (Light Detection and Ranging), remote sensing, and advanced imaging systems. They are also integral to various spectroscopy and sensing technologies for security and surveillance.

These industries benefit from the laser’s ability to generate. precise, short-duration pulses across a wide range of wavelengths, enabling advanced research, development, and manufacturing processes.

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Features


Remote control via keypad.
Tuning range 210 – 2300 nm.
PC control.
High pulse energy at 1 kHz rates.
Air cooled – external water supply is not required.
Narrow linewidth < 9 cm⁻¹.
Optional streak camera triggering pulse with < 10 ps rms jitter.
Motorized hands-free tuning.
Turn-key operation.
Diode pumped solid state design.
Low maintenance costs.

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