Optical Isolation with Microring Modulators
Nathan Dostart (1), Hayk Gevorgyan (2), Deniz Onural (2), Milo\v{s}, Popovi\'c (2) ((1) University of Colorado Boulder, (2) Boston University)
TL;DR
This paper presents a novel integrated photonic isolator using microring modulators and phase shifters, achieving non-reciprocal light transmission suitable for on-chip optical communication systems.
Contribution
It introduces a compact, silicon-based non-reciprocal modulator design that demonstrates effective isolation without magneto-optic effects, advancing integrated photonic component development.
Findings
Achieved up to 13 dB isolation with 2 GHz bandwidth
Maintained data transmission with a 4 Gbps signal through the isolator
Demonstrated potential for integration into standard photonic platforms
Abstract
Optical isolators, while commonplace in bulk- and fiber-optic systems, remain a key missing component in integrated photonic systems. Isolation using magneto-optic effects has been difficult to implement due to fabrication restraints, motivating use of other non-reciprocal effects such as temporal modulation. We demonstrate a non-reciprocal modulator comprising a pair of microring modulators and a microring phase shifter in an active silicon photonic process which, in combination with standard frequency filters, facilitates isolation. Isolation up to 13 dB is measured with a 3 dB bandwidth of 2 GHz and insertion loss of 18 dB. As one potential application is cross-talk suppression in bi-directional communication links, we also show transmission of a 4 Gbps data signal through the isolator while retaining a wide-open eye diagram. This compact design, in combination with increased…
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