On-chip optical polarization controller

What is claimed is: 1. An optical polarization controller, comprising: a substantially planar substrate; and a waveguide unit cell formed on the substantially planar substrate, the waveguide unit cell comprising: a first out-of-plane waveguide portion, and a second out-of-plane waveguide portion coupled to the first out-of-plane waveguide portion, wherein each of the first and second out-of-plane waveguide portions respectively includes a core material layer arranged between a first optical cladding layer having a first stress-response property and a second optical cladding layer having a second stress-response property that is different than the first stress-response property such that each of the first and second out-of-plane waveguide portions is deflected by a deflection angle, wherein the deflection angle of at least one of the first out-of-plane waveguide portion or the second out-of-plane waveguide portion is configured to be adjustable in response to an electrical excitation, and wherein the at least one of the first out-of-plane waveguide portion or the second out-of-plane waveguide portion further comprises a piezoelectric actuator layer provided on the first or second optical cladding layers, the piezoelectric actuator layer being configured to expand or contract in response to an applied electric field. 2. The optical polarization controller of claim 1 , wherein at least one of the first out-of-plane waveguide portion or the second out-of-plane waveguide portion is deflected toward or away from the substantially planar substrate. 3. The optical polarization controller of claim 1 , wherein an angle of optical polarization rotation between input and output light is a function of the deflection angle. 4. The optical polarization controller of claim 1 , further comprising a plurality of waveguide unit cells coupled in series and formed on the substantially planar substrate, wherein an angle of optical polarization rotation between input and output light is a function of a number of the waveguide unit cells and the deflection angle. 5. The optical polarization controller of claim 4 , further comprising one or more in-plane waveguide portions, wherein each respective in-plane waveguide portion is connected between two waveguide unit cells. 6. The optical polarization controller of claim 1 , wherein, in response to the applied electric field, the deflection angle of the at least one of the first out-of-plane waveguide portion or the second out-of-plane waveguide portion is adjusted. 7. The optical polarization controller of claim 1 , wherein the piezoelectric actuator layer is a thin film formed from a piezoelectric material. 8. The optical polarization controller of claim 1 , wherein: the core material layer is formed from at least one of a semiconductor, a polymer, an amorphous glass, crystal, or a chalcogenide, or the first optical cladding layer is formed from at least one of PECVD SiO 2 or BOX SiO 2 , or the second optical cladding layer is formed from at least one of PECVD SiO 2 or BOX SiO 2 . 9. An photonic integrated circuit (PIC) chip, comprising: a substantially planar substrate; electronic and photonic circuitry formed on the substantially planar substrate; and the optical polarization controller of claim 1 formed on the substantially planar substrate and electrically and photonically coupled to the electronic and photonic circuitry.