What is Q-switching?
Q-switching is a technique used in laser technology to produce a high-intensity, short-duration pulse of light. The 'Q' in Q-switching stands for the quality factor of the laser cavity, which represents the efficiency of the laser in storing energy before releasing it. Here's how it works and its significance:

Working Principle of Q-Switching:
Energy Storage: In a Q-switched laser, the active medium (like a crystal or a glass) is pumped continuously, which stores energy in the form of excited atoms or molecules. During this phase, the quality factor of the laser cavity is kept low to prevent premature emission of light. This is achieved by using a Q-switch.

Q-Switch: A Q-switch is a device that can rapidly change the quality factor of the laser cavity. Initially, it prevents the photons from initiating laser action, effectively 'holding' the energy in the medium.

Release of Energy: When the desired level of energy is stored, the Q-switch is activated to suddenly increase the quality factor of the cavity. This leads to a rapid release of the stored energy in the form of a powerful laser pulse.

Pulse Characteristics: The laser pulses produced by Q-switching are characterized by high peak power and short duration, typically lasting nanoseconds (billionths of a second). The energy per pulse can be very high, even though the average power may be low.