Abstract
Silicon photonic switches with integrated p-i-n junctions can exhibit fast switching on the order of nanoseconds, enabling prospective optical networks with very fast reconfiguration times. However, carriers injected through the p-i-n junction cause extra loss, which can increase insertion loss, degrade uniformity and cause crosstalk. In this paper, we show that a path-independent insertion loss (PILOSS) switch with integrated p-i-n junctions can achieve uniform and very low on-chip insertion loss (3.8
$\pm$
0.19 dB) with strictly non-blocking characteristics. The switching time of our switch is
$< $
12.5 ns and
$< $
6.1 ns for 10%–90% and 10%–80% rise/fall times, respectively, and the optical crosstalk can be suppressed by more than 20 dB for a bandwidth of
$>$
31 nm for the worst case.
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