Changing the spectral position of a lightpath

The invention claimed is: 1. A method of changing the spectral position of a lightpath between a source node and a destination node of an optical network, wherein the optical network uses a flexible grid for spectral allocation and the lightpath has been allocated first spectral resources at a first spectral position, the method comprising at the source node: reserving additional spectral resources for the lightpath which are contiguous in frequency with the first spectral resources; re-tuning a light source at the source node such that the lightpath moves in frequency from using the first spectral resources at the first spectral position to using second spectral resources at a second spectral position, wherein the second spectral resources comprise at least some of the additional spectral resources; and releasing at least some of the first spectral resources, wherein the source node continues to send traffic over the lightpath during the re-tuning. 2. The method according to claim 1 wherein the second spectral resources are at least one of contiguous in frequency with the first spectral resources and overlapping in frequency with the first spectral resources. 3. The method according to claim 1 wherein the second spectral resources are offset from the first spectral resources by intermediate spectral resources, the step of reserving additional spectral resources reserves the intermediate spectral resources and the step of releasing also releases the intermediate spectral resources. 4. The method according to claim 3 further comprising determining if the intermediate spectral resources are available. 5. The method according to claim 1 wherein there is a receiver at the destination node for receiving the lightpath and the step of re-tuning a source is performed at a rate which is within automatic frequency tuning capabilities of the receiver. 6. The method according to claim 1 wherein an amount of spectral resources allocated to the lightpath remains the same in the first spectral position and the second spectral position. 7. The method according to any one of the preceding claim 1 further comprising notifying the destination node of the change in the spectral position of the lightpath before the re-tuning. 8. The method of claim 1 , comprising at a network management system, causing the source node to perform the method. 9. A method of changing the spectral position of a lightpath between a source node and a destination node of an optical network, wherein the optical network uses a flexible grid for spectral allocation and wherein the lightpath has been allocated first spectral resources at a first spectral position, the method comprising at the destination node: reserving additional spectral resources for the lightpath which are contiguous in frequency with the first spectral resources; and releasing at least some of the first spectral resources after the lightpath has moved in frequency from using the first spectral resources at the first spectral position to using second spectral resources at a second spectral position, wherein the second spectral resources comprise at least some of the additional spectral resources; wherein the destination node continues to receive traffic over the lightpath during the change in the spectral position of the lightpath. 10. The method according to claim 9 further comprising tracking the lightpath as the lightpath is moved, in frequency, from the first spectral resources to the second spectral resources. 11. The method according to claim 9 further comprising receiving a notification of the change in the spectral position of the lightpath. 12. The method according to claim 9 wherein the method further comprises suppressing any alarms that occur as the lightpath moves in frequency from using the first spectral resources at the first spectral position to using second spectral resources at a second spectral position. 13. An apparatus for use at a node of an optical network which uses a flexible grid for spectral allocation, the apparatus comprising: a transponder which is arranged to support a lightpath which is allocated first spectral resources at a first spectral position, the transponder comprising a light source; and a controller which is arranged to support a change in a spectral position of the lightpath by: reserving additional spectral resources for the lightpath which are contiguous in frequency with the first spectral resources; re-tuning the light source at the node such that the lightpath moves in frequency from using the first spectral resources at the first spectral position to using second spectral resources at a second spectral position, wherein the second spectral resources comprise at least some of the additional spectral resources; and releasing at least some of the first spectral resources, wherein the node is arranged to continue to send traffic over the lightpath during the change in the spectral position of the lightpath. 14. An optical network comprising: the apparatus for use at the node according to claim 13 ; or a network management system for the optical network comprising a plurality of nodes which use a flexible grid for spectral allocation, the network management system comprising: a controller; and a signalling interface for communicating with nodes of the network, wherein the controller is arranged to send instructions to the nodes to perform a method of changing the spectral position of a lightpath between a source node and a destination node of the optical network, wherein the lightpath has been allocated first spectral resources at a first spectral position, the method comprising at the source node: reserving additional spectral resources for the lightpath which are contiguous in frequency with the first spectral resources; re-tuning a light source at the source node such that the lightpath moves in frequency from using the first spectral resources at the first spectral position to using second spectral resources at a second spectral position, wherein the second spectral resources comprise at least some of the additional spectral resources; and releasing at least some of the first spectral resources, wherein the source node continues to send traffic over the lightpath during the re-tuning. 15. An apparatus for use at a node of an optical network which uses a flexible grid for spectral allocation, the apparatus comprising: a transponder which is arranged to support a lightpath which is allocated first spectral resources at a first spectral position; and a controller which is arranged to support a change in a spectral position of the lightpath by: reserving additional spectral resources for the lightpath which are contiguous in frequency with the first spectral resources; and releasing at least some of the first spectral resources after the lightpath has moved in frequency from using the first spectral resources at the first spectral position to using second spectral resources at a second spectral position, wherein the second spectral resources comprise at least some of the additional spectral resources, wherein the node is arranged to continue to receive traffic over the lightpath during the change in the spectral position of the lightpath. 16. The apparatus according to claim 15 wherein the controller is further arranged to track the lightpath as the lightpath is moved, in frequency, from the first spectral resources to the second spectral resources. 17. A network management system for an optical network comprising a plurality of nodes which use a flexible grid for spectral