Photothermally Actuated Self-Tuning Optical Light Valve

What is claimed is: 1 . A tunable optical filter for a detector, the optical filter comprising: a plate having a top side and a bottom side, the plate having material properties making it transparent to a range of optical frequencies; a transparent metasurface proximate the top side of the plate, the transparent metasurface configured to have a transmissive pass band and a stop band; and an undercarriage support structure proximate the bottom side of the plate, the undercarriage support responsive to photothermal heating; the undercarriage support structure configured to deform from the photothermal heating caused by an undesired signal thereby shifting the stop band in frequency toward the undesired signal to block reception of the undesired signal by the detector. 2 . The tunable optical filter of claim 1 , wherein the transparent metasurface is a Distributed Bragg Reflector (DBR). 3 . The tunable optical filter of claim 1 , wherein the transparent metasurface comprises a multilayer actuator stack exhibiting Fabry-Perot resonance. 4 . The tunable optical filter of claim 1 , wherein the transparent metasurface is a High Contrast Grating (HCG). 5 . The tunable optical filter of claim 1 further comprising: the undercarriage support additionally configured to deform from electrically controlled joule heating. 6 . The tunable optical filter of claim 1 , wherein the undercarriage support comprises: a plurality of actuators; a first portion of the plurality of actuators coated with a tailored absorptive film in a spectral region of interest; and a second portion of the plurality of actuators coated with a thin reflective material. 7 . The tunable optical filter of claim 6 , wherein the first portion of the plurality of actuators is positioned opposite the second portion of the plurality of actuators. 8 . The tunable optical filter of claim 6 , wherein the plurality of actuators comprise bimorph films. 9 . The tunable optical filter of claim 1 , wherein the undercarriage support comprises a plurality of actuators configured in a serpentine pattern. 10 . A system, comprising: a detector; and an optical filter, including: a plate having a top side and a bottom side, the plate having material properties making it transparent to a range of optical frequencies; a transparent metasurface proximate the top side of the plate, the transparent metasurface configured to have a transmissive pass band and a stop band; and an undercarriage support structure proximate the bottom side of the plate, the undercarriage support responsive to photothermal heating; the undercarriage support structure configured to deform from the photothermal heating caused by an undesired signal thereby shifting the transparent metasurface stop band in frequency toward the undesired signal to be filtered. 11 . The system of claim 10 , wherein the transparent metasurface is a Distributed Bragg Reflector (DBR). 12 . The tunable optical filter of claim 10 , wherein the transparent metasurface comprises a multilayer actuator stack exhibiting Fabry-Perot resonance. 13 . The system of claim 10 , wherein the transparent metasurface is a High Contrast Grating (HCG). 14 . The system of claim 10 further comprising: the undercarriage support additionally configured to deform from electrically controlled joule heating. 15 . The system of claim 10 , wherein the undercarriage support comprises: a plurality of actuators; a first portion of the plurality of actuators coated with a tailored absorptive film in a spectral region of interest; and a second portion of the plurality of actuators coated with a thin reflective material. 16 . The system of claim 15 , wherein the first portion of the plurality of actuators is positioned opposite the second portion of the plurality of actuators. 17 . The system of claim 15 , wherein the plurality of actuators comprise bimorph films. 18 . The system of claim 10 , wherein the undercarriage support comprises a plurality of actuators configured in a serpentine pattern. 19 . A method of optical filtering, comprising: exposing a detector with an optical filter to an undesired signal, the optical filter including a transparent metasurface having a transmissive pass band and a stop band, which is proximate a plate having material properties making it transparent to a range of optical frequencies in the transmissive pass band, which is proximate a undercarriage support; deforming the undercarriage support from the photothermal heating caused by the undesired spectral signal; shifting the transparent metasurface stop band in frequency toward the undesired signal in response to the deformation of the undercarriage support; and blocking reception of the undesired signal by the detector. 20 . The method of claim 19 , further comprising: deforming the undercarriage support from electrically controlled joule heating. 21 . The method of claim 19 , further comprising: coating a first plurality of actuators of the undercarriage support with an absorptive film in a spectral region of interest; coating a second plurality of actuators of the undercarriage support with a thin reflective material; and asymmetrically deforming the undercarriage support from responses of the first and second plurality of actuators to the photothermal heating.