Compact LIDAR system

What is claimed is: 1 . A lidar system, comprising: a laser source configured to emit light; a reflector; a whispering gallery mode optical resonator that is optically coupled to the laser source via a first optical coupler and to the reflector via a second optical coupler, the whispering gallery mode optical resonator receives the light emitted by the laser source via the first optical coupler and a portion of the light is coupled out of the whispering gallery mode optical resonator via the second optical coupler to the reflector, wherein reflected light from the reflector is coupled back into the whispering gallery mode optical resonator via the second optical coupler and the whispering gallery mode optical resonator returns feedback light to the laser source via the first optical coupler, wherein the laser source is locked to the whispering gallery mode optical resonator by optical injection utilizing the feedback light, and wherein the laser source locked to the whispering gallery mode optical resonator is configured to generate an optical chirp; a beam splitter configured to split the optical chirp into an optical chirp for transmission and a reference chirp; a transmitter assembly configured to transmit the optical chirp for transmission from the lidar system; a receiver assembly configured to receive a reflected optical chirp; and a processor configured to generate position data for an object external to the lidar system based on a comparison of the reflected optical chirp and the reference chirp. 2 . The lidar system of claim 1 , wherein frequency of the feedback light is based on an optical property of the whispering gallery mode optical resonator. 3 . The lidar system of claim 2 , further comprising: a transducer coupled to the whispering gallery mode optical resonator, the transducer is configured to alter the optical property of the whispering gallery mode optical resonator. 4 . The lidar system of claim 3 , further comprising: a controller configured to apply a time-varying signal to the transducer over a period of time. 5 . The lidar system of claim 2 , wherein the optical property of the whispering gallery mode optical resonator is refractive index. 6 . The lidar system of claim 1 , further comprising: an optical coupler, wherein the optical coupler optically couples the laser source and the whispering gallery mode optical resonator. 7 . The lidar system of claim 1 , wherein the lidar system is included as part of an autonomous vehicle. 8 . The lidar system of claim 1 , wherein the lidar system is included as part of at least one of an augmented reality system or a virtual reality system. 9 . The lidar system of claim 1 , wherein the whispering gallery mode optical resonator is constructed of an electro-optic material. 10 . The lidar system of claim 1 , wherein the whispering gallery mode optical resonator comprises features to provide a counterpropagating wave, wherein the feedback light is at least a portion of the counterpropagating wave. 11 . The lidar system of claim 1 , wherein the whispering gallery mode optical resonator has one of a spherical shape, a solid toroidal shape, a disc shape, or a ring shape. 12 . The lidar system of claim 1 , wherein the feedback light returned to the laser source reduces a linewidth of the laser source. 13 . An autonomous vehicle, comprising: a lidar system, comprising: a laser source configured to emit light; a reflector; a whispering gallery mode optical resonator that is optically coupled to the laser source via a first optical coupler and to the reflector via a second optical coupler, the whispering gallery mode optical resonator receives the light emitted by the laser source via the first optical coupler and a portion of the light is coupled out of the whispering gallery mode optical resonator via the second optical couplet to the reflector, wherein reflected light from the reflector is coupled back into the whispering gallery mode optical resonator via the second optical coupler and the whispering gallery mode optical resonator returns feedback light to the laser source via the first optical coupler, wherein the laser source is locked to the whispering gallery mode optical resonator by optical injection utilizing the feedback light, and wherein the laser source locked to the whispering gallery mode optical resonator is configured to generate an optical chirp; a beam splitter configured to split the optical chirp into an optical chirp for transmission and a reference chirp; a transmitter assembly configured to transmit the optical chirp for transmission from the lidar system; a receiver assembly configured to receive a reflected optical chirp; and a processor configured to generate position data for an object external to the autonomous vehicle based on a comparison of the reflected optical chirp and the reference chirp. 14 . The autonomous vehicle of claim 13 , wherein the lidar system further comprises a controller configured to output a time-varying signal that controls modulation of an optical property of the whispering gallery mode optical resonator over a period of time such that frequencies of the feedback light are modulated during the time period to cause the laser source to generate the optical chirp. 15 . The autonomous vehicle of claim 14 , wherein the lidar system further comprises a transducer coupled to the whispering gallery mode optical resonator, and wherein the controller is configured to apply the time-varying signal to the transducer over the period of time so as to cause the transducer to alter the optical property of the whispering gallery mode optical resonator over the period of time. 16 . The autonomous vehicle of claim 13 , wherein the lidar system further comprises an optical coupler that optically couples the laser source and the whispering gallery mode optical resonator. 17 . The autonomous vehicle of claim 13 , further comprising: an engine, wherein the engine is controlled at least in part based on the position data for the object external to the autonomous vehicle. 18 . The autonomous vehicle of claim 13 , further comprising: a steering system, wherein the steering system is controlled at least in part based on the position data for the object external to the autonomous vehicle. 19 . The autonomous vehicle of claim 13 , further comprising: a braking system, wherein the braking system is controlled at least in part based on the position data for the object external to the autonomous vehicle. 20 . A method of utilizing a lidar system, comprising: controlling a laser source of the lidar system to emit light, wherein the laser source is optically coupled to a whispering gallery mode optical resonator of the lidar system via a first optical coupler, wherein the whispering gallery mode optical resonator receives the light emitted by the laser source via the first optical coupler and a portion of the light is coupled out of the whispering gallery mode optical resonator via the second optical couplet to a reflector, wherein reflected light from the reflector is coupled back into the whispering gallery mode optical resonator via the second optical coupler and the whispering gallery mode optical resonator returns feedback light to the laser source via the first optical coupler, wherein the laser source is locked to the whispering gallery mode optical resonator by optical injection utilizing the feedback light, and wherein the laser source locked to the whispering gallery mode op