Long range electromagnetic radiation sensor having a control system to heat and/or ionize the air within three-dimensional portions of an atmospheric volume

The invention claimed is: 1. A long range electromagnetic radiation sensor apparatus comprising a sensing system for receiving electromagnetic radiation signals from an object or area of interest and at least one electromagnetic radiation sensor, the apparatus further comprising an electromagnetic radiation source and a control system configured to cause electromagnetic radiation from said source to be applied to a selected plurality of three-dimensional portions of an atmospheric volume between an optical system and said object or area of interest so as to heat and/or ionise the air within said portions, wherein said selected portions are spatially located together in a three-dimensional configuration so as to generate an electromagnetic radiation path modifying atmospheric element for capturing said electromagnetic signals from said object or area of interest and directing and/or converging said captured signals toward said electromagnetic radiation sensor of said sensing system. 2. The apparatus according to claim 1 , wherein the selected portions are spatially located together in a substantially unbroken three-dimensional configuration corresponding to the three-dimensional shape of the generated electromagnetic radiation path modifying atmospheric element. 3. The apparatus according to claim 1 , the selected portions are configured such that non-selected portions are in a configuration corresponding to a three-dimensional shape of the generated electromagnetic radiation path modifying atmospheric element. 4. The apparatus according to claim 1 , wherein the sensing system is an optical system, and the electromagnetic radiation path modifying atmospheric element generated by said selected portions is an optical lens, wherein the control system is configured to cause electromagnetic radiation from said source to be applied to said selected plurality of three-dimensional portions so as to heat and/or ionise the air therein and change the refractive index thereof. 5. The apparatus according to claim 4 , wherein said optical lens generated by the selected portions is a converging lens and said selected portions are spatially located together in a concave lens configuration. 6. The apparatus according to claim 4 , wherein said optical lens generated by the selected portions is a converging lens and non-selected portions are spatially located together in a convex lens configuration. 7. The apparatus according to claim 1 , wherein the electromagnetic radiation path modifying atmospheric element generated by said selected portions is a reflective device and the control system is configured to cause electromagnetic radiation from said source to be applied to said selected plurality of three-dimensional portions so as to heat and/or ionise the air therein. 8. The apparatus according to claim 1 , wherein the atmospheric volume is divided into an array of three dimensional portions, and said control system is configured to cause said electromagnetic radiation from said source to be applied to said selected portions. 9. The apparatus according to claim 8 , wherein the electromagnetic radiation source comprises a beam steering mechanism for selectively steering a beam of electromagnetic radiation output therefrom, said control system being communicably coupled to said beam steering mechanism and configured to generate signals for steering said beam of electromagnetic radiation relative to said atmospheric volume so as to sequentially apply electromagnetic radiation to said selected portions. 10. The apparatus according to claim 8 , comprising a beam splitting module for splitting a beam output from said electromagnetic radiation source into a plurality of paths corresponding to respective locations of selected portions. 11. The apparatus according to claim 1 , wherein the electromagnetic radiation source comprises one or more laser sources. 12. The apparatus according to claim 1 , comprising an atmospheric element monitoring module for monitoring atmospheric conditions, generating data representative thereof, and transmitting said data to said control system which is further configured to adjust at least one characteristic of said electromagnetic radiation applied to said selected portions of said atmospheric volume so as to compensate for atmospheric distortion. 13. The apparatus according to claim 1 , comprising a quality monitoring module for monitoring the performance of the electromagnetic radiation path modifying atmospheric element against a predefined set of desired criteria, and generating signals to dynamically adjust beam steering/splitting and/or power of the electromagnetic radiation source so as to reduce or eliminate deviation of the properties and characteristics of the atmospheric element from that which is defined by the predefined criteria. 14. A method of generating an atmospheric element operative to modify an electromagnetic radiation path in a long range electromagnetic radiation sensor, the method comprising dividing an atmospheric volume into a matrix of three dimensional portions, applying electromagnetic radiation to the selected plurality of three-dimensional portions of the atmospheric volume so as to heat and/or ionise the air within said portions, wherein said selected portions are spatially located together in a substantially unbroken three-dimensional configuration corresponding to a three-dimensional shape of a electromagnetic radiation path modifying atmospheric element. 15. A control system for apparatus according to claim 1 configured to be communicably coupled to said electromagnetic radiation source, said control system comprising a database on which is stored data representative of a three-dimensional matrix configuration of a plurality of three-dimensional elements, and a processor for mapping said stored three-dimensional matrix configuration of elements to an atmospheric volume, the processor being further configured to generate actuation signals configured to cause said electromagnetic radiation source to apply electromagnetic radiation to a selected plurality of portions of said atmospheric volume so as to heat and/or ionise the air therein and thereby define the electromagnetic radiation path modifying atmospheric element, said selected portions being spatially located together in substantially the same configuration as said stored three-dimensional matrix configuration of elements.