Intermittent microwave bursts of a semiconductor laser with an ultra-long loop for generating timing-based random bits.
Opt Lett
; 49(18): 5264-5267, 2024 Sep 15.
Article
en En
| MEDLINE
| ID: mdl-39270281
ABSTRACT
Chaotic dynamics of semiconductor lasers under optical feedback are useful for random bit generation (RBG). By exploring on an ultra-long feedback loop, a single-mode laser in a route-to-chaos unveils an emission intensity with intermittent microwave bursts, for which a fast form of timing-based RBG is demonstrated. Each microwave burst corresponds to a packet of periodic intensity oscillations at the relaxation resonance. Numerous bursts are found intermittently within a round trip. Repetitions of these intermittent microwave bursts are observed across consecutive round trips. Randomness is extracted from the timing of the bursts as far as the feedback is reinitialized. With a 5-km fiber for feedback to the laser, over 104 intermittent bursts of microwave at 7 GHz are obtained per round trip, where the irregular timing in the envelope leads to RBG at 9.6 Gbps. Such experimental results feature the form of timing-based RBG that is very fast by comparison, carried by the microwave, and stored in the feedback nonlinear dynamics.
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01-internacional
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MEDLINE
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En
Revista:
Opt Lett
Año:
2024
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Article
Pais de publicación:
Estados Unidos