Nike laser


The Nike laser at the United States Naval Research Laboratory in Washington, DC is a 56-beam, 4–5 kJ per pulse electron beam pumped krypton fluoride excimer laser which operates in the ultraviolet at 248 nm with pulsewidths of a few nanoseconds. Nike was completed in the late 1980s and is used for investigations into inertial confinement fusion. By using a KrF laser with induced spatial incoherence optical smoothing, the modulations in the laser focal profile are only 1% in one beam and < 0.3% with a 44-beam overlap. This feature is especially important for minimizing the seeding of Rayleigh-Taylor instabilities in the imploding fusion target capsule plasma.

Background

In a gas-based laser, the entire gas molecule changes energy levels to release light. This is different from lasers that rely on electrons inside a given atom to change energy levels. The advantage of gas-based lasers are that with no solid medium, the hardware inside the beamline does not heat up. This allows excimer lasers to fire at high repetition rates. The other advantage is that this beam does not pass through a solid glass which distorts the beam, requiring smoothing once created. In 2013, the Electra laser was able to demonstrate over 90,000 shots in 10 hours using KRF gas.
Krypton fluoride lasers were studied more aggressively for fusion energy between the late 1980s into the middle of the 1990s; below is a list institutions that had research programs:
The NIKE laser system starts with a Marx generator that forms a large voltage pulse. This is applied to a solid state switch that transfers that energy into a water-filled transmission line. This transmission line is a big metal pipe filled with water or oil that contains the current. The pipe includes pressure release valves in case there is a short/vaporization event inside the line. This current is passed to a plasma-based laser switch. A laser beam passes across the plasma switch, which induces streams of electrons to strike an emitter plate that pumps the energy into the KRF or ARF gas.
Image:Nike laser final mirrors.gif|thumb|right|Nike laser final mirror array and lens array that direct the laser beams onto target.