Clamp and a method of clamping

The invention claimed is: 1. A clamp for clamping optical fiber to a tube, the clamp comprising a body portion coupled at one end to a first arm and at an opposing end to a second arm, the clamp having a resilient portion to permit the clamp to elastically deform from a closed state in which the clamp is fastened around the tube to an open state in which the clamp is radially moveable off the tube, wherein application of a force separating the first and second arms biases the resilient portion and transitions the clamp from the closed state to the open state, and wherein the resilient portion returns the clamp from the open state to the closed state when the force is removed, at least one of the body portion, the first arm and the second arm having a clamping surface to clamp a portion of the optical fiber against the tube when the clamp is fastened around the tube, wherein the clamping surface comprises a groove sized to receive within the groove the portion of the optical fiber; and a clamping mechanism comprising a bore and a fastener extending through the bore and having an end portion forming at least part of the clamping surface, the clamping mechanism being operable to extend the fastener towards the tube and thereby extend the at least part of the clamping surface towards the tube when the clamp is secured to the tube to increase a clamping force applied by the clamping surface. 2. The clamp of claim 1 , wherein: the bore is formed in the body portion and terminates at the clamping surface. 3. The clamp of claim 1 , wherein an outer surface of the fastener and an inner surface of the bore comprise cooperating screw threads such that rotating the fastener in one direction with respect to the bore extends the end portion of the fastener towards the tube to increase the clamping force, and rotating the fastener in the other direction with respect to the bore retracts the end portion of the fastener away from the tube to decrease the clamping force. 4. The clamp of claim 1 , wherein the first arm comprises: a further clamping surface to clamp another portion of optical fiber against the tube when the clamp is fastened around the tube, and a further clamping mechanism operable to extend at least part of the further clamping surface towards the tube to increase a clamping force applied by the further clamping surface. 5. The clamp of claim 4 , wherein the further clamping surface comprises a groove for receiving the other portion of optical fiber. 6. The clamp of claim 5 , wherein the further clamping mechanism comprises: a further bore formed in the at least one arm and terminating at the further clamping surface, and a further fastener extending through the further bore and having an end portion forming the at least part of the further clamping surface which is operable to extend towards the tube to increase the clamping force applied by the further clamping surface. 7. The clamp of claim 6 , wherein an outer surface of the further fastener and an inner surface of the further bore comprise cooperating screw threads such that rotating the further fastener in one direction with respect to the further bore extends the end portion of the further fastener towards the tube to increase the clamping force, and rotating the further fastener in the other direction with respect to the further bore retracts the end portion of the further fastener away from the tube to decrease the clamping force. 8. The clamp of claim 1 , wherein the second arm comprises: an additional clamping surface to clamp another portion of optical fiber against the tube when the clamp is fastened around the tube, and an additional clamping mechanism operable to extend at least part of the additional clamping surface towards the tube to increase a clamping force applied by the additional clamping surface. 9. The clamp of claim 8 , wherein the additional clamping surface comprises a groove for receiving the other portion of optical fiber. 10. The clamp of claim 9 , wherein the additional clamping mechanism comprises: an additional bore formed in the at least one arm and terminating at the additional clamping surface, and an additional fastener extending through the additional bore and having an end portion forming the at least part of the additional clamping surface which is operable to extend towards the tube to increase the clamping force applied by the additional clamping surface. 11. The clamp of claim 10 , wherein an outer surface of the additional fastener and an inner surface of the additional bore comprise cooperating screw threads such that rotating the additional fastener in one direction with respect to the additional bore extends the end portion of the additional fastener towards the tube to increase the clamping force, and rotating the additional fastener in the other direction with respect to the additional bore retracts the end portion of the additional fastener away from the tube to decrease the clamping force. 12. The clamp of claim 8 , wherein the first arm comprises a further clamping surface to clamp another portion of optical fiber against the tube when the clamp is fastened around the tube, and a further clamping mechanism operable to extend at least part of the further clamping surface towards the tube to increase a clamping force applied by the further clamping surface, wherein the clamping surface is equidistant from the further clamping surface and the additional clamping surface. 13. The clamp of claim 1 , wherein the body portion further comprises a handle. 14. The clamp of claim 1 , wherein the resilient portion comprises each of the first and second arms. 15. The clamp of claim 1 , wherein the resilient portion comprises the body portion. 16. The clamp of claim 1 , wherein each of the first and second arms is arcuate, and the first and second arms, with the body portion, define a curve of greater than 180 degrees. 17. The clamp of claim 16 , wherein the first and second arms, with the body portion, define a curve of between 240 and 300 degrees. 18. The clamp of claim 16 , wherein a diameter of the curve is 320 millimeters. 19. The clamp of claim 1 , wherein the clamp is fabricated from an electrically insulating material. 20. The clamp of claim 1 , wherein the groove is offset with respect to a longitudinal axis of the clamp. 21. A method of clamping optical fiber to a tube, the method comprising: positioning a portion of optical fiber against the tube, the optical fiber comprising at least one pair of fiber Bragg gratings; clamping the portion of optical fiber to the tube using a clamp, the clamp comprising a body portion coupled at one end to a first arm and at an opposing end to a second arm, the clamp having a resilient portion to permit the clamp to elastically deform from a closed state in which the clamp is fastened over the portion of optical fiber and around the tube to an open state in which the clamp is radially moveable off the tube, wherein application of a force separating the first and second arms biases the resilient portion and transitions the clamp from the closed state to the open state, and wherein the resilient portion returns the clamp from the open state to the closed state when the force is removed, at least one of the body portion, the first arm and the second arm having: a clamping surface to clamp a portion of the optical fiber against the tube when the clamp is fastened around the tube, wherein the clamping surface comprises a groove sized to receive within the groove the