LASER INTERACTION

FIGURE 1-6. Led Cluster-Array

Laser energy (v) of Figure 1-1 is now injected into or superimposed onto the Gas Destabilization Process to help promote the Electron Extraction Process since the absorbed light energy (electromagnetic energy) forces the gas atom electrons to an higher energy state or attraction-force (q2) between the orbital electrons and the nucleus… weakening the electrical attraction-force (qq') between the orbital electrons and the nucleus, as illustrated in Figure 1-5 as to Figure 20JX.

Light-emitting diodes arranged in an Cluster-Array provides and emits an narrow band of visible light energy, as illustrated in Figure 1-6 as to Figure 20XX.

Laser or light intensity is linear with respect to the forward current through the LEDS, and, is determined by

$Rs=Vin−VledIledR_s = \frac{V_{in} - V_{led}}{I_{led}}$

Where
$I_{led}$ is the specified forward current (typically 20ma. per diode); $V_{led}$ is the LED voltage drop (typically 1.7 volts for red emitters).

Ohm’s Law for LED circuit in parallel array, and, is given by

$Pwatts=VCC⋅ItP_{watts} = V_{CC} \cdot I_t$

Where
$I_t$ is the forward current through LED cluster-Array; $V_{CC}$ is volts applied (typically 5 volts).