Self-adaptive thin-film electromagnetic shielding screen

The invention claimed is: 1 . An optically transparent self-adaptive electromagnetic shielding device for a lens or for a window of a piece of equipment provided with an electrically conductive enclosure containing an optical or RF sensor behind said lens or said window, said shielding device comprising, on at least one face of said lens or said window, a shielding screen comprising a switchable RF shielding mesh at least partially surrounded by a border of insulator-metal transition material arranged between said mesh and an electrically conductive envelope for shielding said piece of equipment, said shielding device further comprising a susceptor element, arranged facing or in contact with said insulator-metal transition material and adapted to transform incident electromagnetic energy into an amount of activation heat for said insulator-metal transition material, said susceptor element being dimensioned to cause a transition to a conductive state of said insulator-metal transition material under the action of said electromagnetic energy so as to electrically connect, at low impedance, said mesh to said electrically conductive envelope when the incident electromagnetic energy exceeds a predetermined threshold. 2 . The self-adaptive shielding device according to claim 1 , wherein the switchable RF shielding mesh and the insulator-metal transition material are arranged on one face of said lens or of said window, internal to the piece of equipment, while the susceptor element is implemented on an external face of said lens or of said window and comprises a layer of electrically conductive material which faces a surface of said insulator-metal transition material. 3 . The self-adaptive shielding device according to claim 2 , wherein the insulator-metal transition material forms a first frame around the mesh, the susceptor element being shaped as a second frame facing said first frame. 4 . The self-adaptive shielding device according to claim 3 , wherein a surface area of the second frame is greater than or equal to a surface area of the first frame. 5 . The self-adaptive shielding device according to claim 2 , wherein the susceptor element comprises a layer of semi-transparent conductive material covering the external face of said lens or of said window. 6 . The self-adaptive shielding device according to claim 1 , wherein the switchable RF shielding mesh and the insulator-metal transition material are deposited on an external face of said lens or of said window, the susceptor element comprising a layer of conductive material facing a surface of said insulator-metal transition material and deposited on an electrically insulating layer covering said insulator-metal transition material. 7 . The self-adaptive shielding device according to claim 6 , wherein the switchable RF shielding mesh is implemented with the insulator-metal transition material deposited on an external face of said lens or of said window and covering said external face, the susceptor element comprising a layer of conductive material deposited on an insulating layer which itself covers said insulator-metal transition material. 8 . The self-adaptive shielding device according to claim 7 , wherein said layer of conductive material and/or said layer of insulating material comprises an optically transparent mesh covering the switchable RF shielding mesh. 9 . The shielding device according to claim 1 , wherein the switchable RF shielding mesh, the insulator-metal transition material, and the susceptor element are arranged on one face of said lens or of said window, internal or external to the piece of equipment, the susceptor element being implemented in the form of a frame surrounding the insulator-metal transition material, the latter surrounding the switchable RF shielding mesh. 10 . The self-adaptive shielding device according to claim 1 , wherein the switchable RF shielding mesh is a mesh of micrometric pitch made of electrically conductive material. 11 . The self-adaptive shielding device according to claim 1 , wherein the switchable RF shielding mesh is a mesh made of a material chosen among a titanium/silver bilayer, an insulator-metal transition material, or gold. 12 . The self-adaptive shielding device according to claim 1 , wherein the insulator-metal transition material is a VO2 type of material with a thickness between 1000 and 2000 nm. 13 . The self-adaptive shielding device according to claim 1 , wherein the susceptor element is a gold film with a thickness of 2 nanometers to 10 nanometers. 14 . The self-adaptive shielding device according to claim 1 , wherein the switchable RF shielding mesh is dimensioned to provide a shielding effectiveness of 10 dB to 40 dB within a frequency band of 0.1 GHz to 40 GHz when the mesh is electrically connected at low impedance to the electrically conductive envelope by the insulator-metal transition material rendered conductive. 15 . The self-adaptive shielding device according to claim 1 , wherein an optical transparency of the shielding screen is at least 50% in the visible range.