Evangelos Pikasis scite author profile

In the present work a photonic integrated circuit (PIC) that emits broadband chaotic signals is employed for ultra-fast generation of true random bit sequences. Chaotic dynamics emerge from a DFB laser, accompanied by a monolithic integrated 1-cm long external cavity (EC) that provides controllable optical feedback. The short length minimizes the existence of external cavity modes, so flattened broadband spectra with minimized intrinsic periodicities can emerge. After sampling and quantization--without including optical de-correlation techniques and using most significant bits (MSB) elimination post-processing--truly random bit streams with bit-rates as high as 140 Gb/s can be generated. Finally, the extreme robustness of the random bit generator for adaptive bit-rate operation and for various operating conditions of the PIC is demonstrated.

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Toward the 6G Network Era: Opportunities and Challenges

Tomkos

Klonidis

Pikasis³

et al. 2020

IT Prof.

197

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Sub-Tb/s Physical Random Bit Generators Based on Direct Detection of Amplified Spontaneous Emission Signals

Argyris

Pikasis

Deligiannidis

et al. 2012

J. Lightwave Technol.

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Towards a Scaleable 5G Fronthaul: Analog Radio-over-Fiber and Space Division Multiplexing

Rommel

Dodane

Grivas

et al. 2020

J. Lightwave Technol.

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Network slicing architecture for SDM and analog-radio-over-fiber-based 5G fronthaul networks

Brenes

Bernini

Fàbrega

et al. 2020

J. Opt. Commun. Netw.

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