All that said, the successful laser weapons right now seem to all be anti drone/aircraft and they are typically using tracked CW (not pulsed) lasers with heating over time to avoid atmospheric lensing. Lots of challenges to overcome in getting pulsed energy a long way through air.
I was wondering if we’d see pulsed lasers in anti-drone warfare… the power supply advantages aside, focusing on just the right point in time with the pulse seems hard.
The hard part is predicting atmospheric effects to get the focus right. It’s basically impossible without some form of just in time compensation. One idea I’ve seen is that you fire a physical projectile and use that to calibrate the focal point at arbitrary distance, almost like a laser tracer.
The pure joy of putting a single joule of optical power into a sub nanosecond pulse.
For those not familiar with lasers, that’s a GW of instantaneous power that you can focus down to a micron sized spot.
https://youtu.be/Z1Xky_ermd4?si=1Luz0fuzm4kcwIwc
All that said, the successful laser weapons right now seem to all be anti drone/aircraft and they are typically using tracked CW (not pulsed) lasers with heating over time to avoid atmospheric lensing. Lots of challenges to overcome in getting pulsed energy a long way through air.
I was wondering if we’d see pulsed lasers in anti-drone warfare… the power supply advantages aside, focusing on just the right point in time with the pulse seems hard.
The hard part is predicting atmospheric effects to get the focus right. It’s basically impossible without some form of just in time compensation. One idea I’ve seen is that you fire a physical projectile and use that to calibrate the focal point at arbitrary distance, almost like a laser tracer.