	US 12,001,065 B1
	Photonics package with tunable liquid crystal lens
Ke Liu, Austin, TX (US); Thein-An Nguyen, Austin, TX (US); and Monireh Moayedi Pour Fard, Austin, TX (US)
Assigned to ORCA Computing Limited, London (GB)
Filed by GenXComm, Inc., Austin, TX (US)
Filed on Dec. 3, 2020, as Appl. No. 17/111,088.
Claims priority of provisional application 63/113,006, filed on Nov. 12, 2020.
Int. Cl. G02B 6/42 (2006.01); G02B 6/122 (2006.01)

CPC G02B 6/4206 (2013.01) [G02B 6/122 (2013.01); G02B 6/4212 (2013.01)]

10 Claims

1. A photonic integrated circuit package, comprising:

a substrate;

a light source disposed on the substrate and operable to emit a light output;

a tunable liquid crystal lens disposed on the substrate and comprising:

a first exterior substrate comprising a first electrode conductively coupled to a voltage source;

an interior substrate;

a second exterior substrate comprising a second electrode conductively coupled to at least one of the voltage source or to ground potential;

a first liquid crystal layer interposing the first exterior substrate and the interior substrate; and

a second liquid crystal layer interposing the interior substrate and the second exterior substrate, wherein the tunable liquid crystal lens is operable to switch between:

a base state in which a first voltage is applied by the voltage source across the first electrode and the second electrode; and

a light steering state in which a second voltage is applied by the voltage source across the first electrode and the second electrode;

first optics interposing the light source and the tunable liquid crystal lens, disposed on the substrate, and comprising an optical isolator coupled to the light source and configured to receive light as output by the light source;

an integrated waveguide disposed on the substrate;

second optics interposing the tunable liquid crystal lens and the integrated waveguide and disposed on the substrate, the second optics configured to cooperate with the tunable liquid crystal lens to direct light output from the light source onto an input facet of the integrated waveguide when the tunable liquid crystal lens is in the base state; and

an integrated sensor disposed on the substrate and configured to determine an operating parameter of the photonic integrated circuit package, the operating parameter comprising at least one of a temperature of the photonic integrated circuit package or a coupling efficiency between the light source and the photonic integrated circuit package, the integrated sensor configured to cooperate with the voltage source to transition the tunable liquid crystal lens to the light steering state from the base state by varying the second voltage in response to each determination of the operating parameter satisfying a threshold.