Title :
Space-time duality and the theory of temporal imaging
Author :
Kolner, Brian H.
Author_Institution :
Dept. of Electr. Eng., California Univ., Los Angeles, CA, USA
fDate :
8/1/1994 12:00:00 AM
Abstract :
There exists a beautiful duality between the equations that describe the paraxial diffraction of beams confined in space and the dispersion of narrow-band pulses in dielectrics. We will see that this duality leads naturally to the conclusion that a quadratic phase modulation in time is the analog of a thin lens in space. Therefore, by a suitable combination of dispersion and quadratic phase modulation (now a “time lens”), we can synthesize the time-domain analog of an imaging system. Such a temporal-imaging system can magnify time waveforms in the same manner as conventional spatial-imaging systems magnify scenes. We analyze this space-time duality and derive expressions for the focal length and f-number of a time lens. In addition, the principles of temporal imaging are developed and we derive time-domain analogs for the imaging condition, magnification ratio, and impulse response of a temporal-imaging system
Keywords :
lenses; light diffraction; optical images; space-time configurations; beams; dielectrics; dispersion; equations; expressions; f-number; focal length; imaging condition; impulse response; magnification ratio; narrow-band pulses; paraxial diffraction; quadratic phase modulation; space-time duality; temporal-imaging system; theory; thin lens; time lens; time waveforms; time-domain analog; time-domain analogs; Chirp; Diffraction; Equations; IEEE members; Image analysis; Lenses; Narrowband; Optical imaging; Phase modulation; Time domain analysis;
Journal_Title :
Quantum Electronics, IEEE Journal of
