Pitot tube and heating arrangement therefore

The invention claimed is: 1. A pitot tube, comprising: a tube wall; and a heating arrangement configured for generating heat for heating at least a portion of said tube wall to prevent said pivot tube from becoming clogged with ice, said heating arrangement including: a radiation absorbing surface configured for absorbing electromagnetic radiation (EMR) and generating said heat; and at least one radiation conveying portion for receiving EMR from an EMR source and conveying said EMR to said radiation absorbing surface. 2. The pitot tube according to claim 1 wherein said radiation absorbing surface includes a coating made of a light sensitive material, and wherein said EMR includes light radiation. 3. The pitot tube according to claim 1 wherein said tube wall includes an outer surface and an inner surface, and wherein said radiation conveying portion is disposed between said outer surface and said inner surface. 4. The pitot tube according to claim 3 wherein said outer surface is said outer surface of said radiation conveying portion and said inner surface is said inner surface of said radiation conveying portion. 5. The pitot tube according to claim 4 wherein said outer surface is a wall configured for conveying said EMR, and wherein said radiation absorbing surface is disposed on said inner surface. 6. The pitot tube according to claim 5 wherein said radiation absorbing surface is integrated within said wall. 7. The pitot tube of claim 1 wherein said radiation conveying portion is at least partially made of a transparent material. 8. The pitot tube according to claim 1 wherein said radiation conveying portion includes a shell mounted over said tube wall. 9. The pitot tube according to claim 8 wherein said tube wall includes an outer portion and an inner portion, and wherein said shell is configured to cover said outer portion. 10. The pitot tube according to claim 9 wherein said radiation absorbing surface is disposed on an inner surface of said shell. 11. The pitot tube according to claim 10 wherein said radiation absorbing surface is disposed adjacent to an outer surface of said outer portion. 12. The pitot tube according to claim 9 wherein said radiation absorbing surface is integrated within said shell. 13. The pitot tube according to claim 1 wherein said radiation conveying portion includes a pipe segment mounted inside of said tube wall. 14. The pitot tube according to claim 13 wherein said tube wall includes an outer portion and an inner portion, and wherein said pipe segment is configured to cover said inner portion. 15. The pitot tube according to claim 13 wherein said radiation absorbing surface is disposed on an inner surface of said pipe segment. 16. The pitot tube according to claim 13 wherein said radiation absorbing surface is integrated within said pipe segment. 17. The pitot tube according to claim 13 wherein said radiation absorbing surface is disposed on an outer surface of said pipe segment. 18. The pitot tube according to claim 17 wherein said radiation absorbing surface is disposed adjacent to an inner surface of said outer portion. 19. A heating arrangement for heating a pitot tube having a tube wall, said heating arrangement comprising: a radiation absorbing surface configured for absorbing electromagnetic radiation (EMR) and generating thereby heat, said radiation absorbing surface being configured for coupling thereof to said tube wall; an electromagnetic radiation source configured for emitting said EMR; and a radiation conveying portion configured to be coupled to said EMR for receiving said EMR therefrom and conveying said EMR to said radiation absorbing surface. 20. The heating arrangement according to claim 19 wherein said electromagnetic radiation source is configured to emit said EMR in more than one frequency, and wherein said electromagnetic radiation source is configured to emit said EMR in various duty cycle modes selected in accordance with ambient conditions.