0.9mm Hex Driver for Micro RC's. Perfect for the Orlandoo Hunter range and GeKo24. Much easier to use than the allen key included with your kit.

LIDTCW laser

Brady™ Indoor Convex Safety Mirror. Convex mirror is ideal for low ceiling areas, elevators and smaller viewing areas in warehouses, ...

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Laser damage Threshold calculator

Conversely, short focal length lenses have a greater depth of field, allowing them to focus on a wider variety of objects. Distortion. The blurriness and ...

Edmund Optics Gaussian beam Calculator

Polarization in the context of window tinting is used to describe tint film or regular tint that is designed to reduce glare and enhance visual clarity. To ...

Diffraction definition: Change in the directions and intensities of a group of waves after passing by an obstacle or through an aperture whose size is ...

Tab, 20 – 17 AWG Wire Size, .5 – 1 mm² Wire Size, 1021 – 2048 CMA Wire Size, Mating Tab Width 2.8 mm [.11 in], FASTIN-FASTON 110, Quick Disconnects · Documents ...

The Picosecond regime is the transitional interval of the pulse duration where nonlinear effects are still not significant. Thermal effects caused by high repetition rates of picosecond lasers are a serious concern, potentially resulting in heating and consequently damage to optical components. Moreover, when the pulse duration is less than 10 ps, nonlinear effects become relevant and the color mode of damage is dominant.

LIDTtesting

Although peak powers produced by nanosecond lasers are not so significant (at least for OPTOMAN), coating damage is still a common concern in this regime. Laser optics must be manufactured with utmost precision to be applicable in nanosecond laser applications.

LIDTlaser

High laser-induced damage threshold (LIDT) is a buzzword when talking about laser optics. Laser damage is a complex phenomenon and, while the result is the same – the optical component is ruined and not suitable for further use, there are different laser damage types and mechanisms. OPTOMAN takes innovation very seriously and makes sure that optical components are able to resist the ongoing increase of laser power and decrease in pulse duration, thus high LIDT is OPTOMAN‘s bread and butter.

Gaussian beam propagator

Maximum permissible exposure (MPE) at the cornea for a collimated laser beam according to IEC 60825, as energy density versus exposure time for various wavelengths.

An antireflective, antiglare or anti-reflection (AR) coating is a type of optical coating applied to the surface of lenses, other optical elements, ...

Managing average power levels and thermal effects is crucial in this regime. Continuous exposure to high power densities can lead to thermal lensing, optical coatings degradation, and other forms of damage over time.

May 28, 2021 — CYL is the amount of astigmatism correction you need, and Axis determines the lens angle required to correct your astigmatism. If you require ...

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In the ultrafast regime, challenges include managing nonlinear effects, which can lead to damage in optical components due to high peak powers concentrated at ultra-short durations. While managing catastrophic damage is crucial for ultrafast laser optics, the color-change effect is also an arch-enemy and a LIDT-limiting factor, which has to be eliminated in order to increase the lifetime of optics and reduce the total cost of ownership. This regime is what OPTOMAN thrives on. Read more about how OPTOMAN solves the color-change problem here.