Locking bandwidth equations for electrically and optically injection-locked oscillators

Abstract: The two most widely used locking bandwidth equations for injection locked oscillators, Adler's and Kurokawa's equations, are compared for the first time. Three differences are pointed out from the comparison: first, the absence of the factor

“…In many papers on injection locking, the 1/r 2 is missing. This problem is analog to the difference which has been noticed [65] between Kurokawa's [66] and Adler's [67] locking bandwidth due to the existence of different Q factors, the resonator unloaded Q, the loaded Q and the external Q.…”

Locking and Noise Properties of Multisection Semiconductor Lasers With Optical Injection. Application to Fabry–PÉrot and DFB Cavities

“…In many papers on injection locking, the 1/r 2 is missing. This problem is analog to the difference which has been noticed [65] between Kurokawa's [66] and Adler's [67] locking bandwidth due to the existence of different Q factors, the resonator unloaded Q, the loaded Q and the external Q.…”

Locking and Noise Properties of Multisection Semiconductor Lasers With Optical Injection. Application to Fabry–PÉrot and DFB Cavities

“…The first was proposed by Adler [15] in 1946 while the second was proposed by Kurokawa [54] in 1973. The approaches have been compared [55], and the general consensus is that Kurokawa…”

Low-power RFIC design techniques for self-powered wireless CMOS circuits with integrated antennas

Injection Locked Oscillator: A Review