One-1030
DPSS Laser, ns Pulsed, 1030 nm, up to 3 W, up to 100 uJ, 5 ns to 20 ns, Passive Qsw.
Key Features:
- Up to 3W of average power
- Up to 100uJ of pulse energy
- Factory set rep. rate up to 30kHz
- Conductively cooled
There are many configurations and options available. If you do not see exactly what you need below, please contact us!
The One-1030 series is a passively q-switched, DPSS nanosecond laser capable of up to 3W of average power, or 100uJ of pulse energy at 1030nm. An ultra-compact, high-peak-power pulsed laser, the One series can be either configured for maximum average power (up to 3W) with a variable repetition rate (up to 30kHz), for applications such as marking and material processing, or configured for operation with an external trigger with a factory set repetition rate up to 10kHz (up to 1W) for instrumentation and measurement applications such as portable LiDAR.
The compact, conductively cooled One series is provided in a rugged housing and requires minimal facility requirements, making it a useful tool in a variety of portable and industrial based applications.
Options
- Beam Expander
- Red Aiming beam
- Photodiode for synchronization
- Air-cooled heat sink
Check out this white paper, authored by one of our happy customers, titled:
“Optoacoustic Brain Stimulation at Submillimeter Spatial Precision”
Summary: Utilizing a 1030nm One Series laser from Bright Solutions, we report spatially confined optoacoustic neural stimulation through a miniaturized Fiber-Optoacoustic Converter (FOC). The FOC has a diameter of 600µm and generates omnidirectional ultrasound wave locally at the fiber tip through the optoacoustic effect. We show that the acoustic wave generated by FOC can directly activate individual cultured neurons and generate intracellular Ca^2+ transients. The FOC activates neurons within a radius of 500µm around the fiber tip, delivering superior spatial resolution over conventional piezo-based low-frequency transducers. Finally, we demonstrate direct and spatially confined neural stimulation of mouse brain and modulation of motor activity in vivo.
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