Labelling scheme and apparatus

The invention claimed is: 1. A method of writing a label, the label displaying a visible layout of light-modified regions in a predetermined spatial arrangement, the method comprising: modifying regions of a material within the label using light, wherein the modifying comprises using light of a first polarisation state, which is one of left circular polarisation and right circular polarisation, to create chiral structures within the material and provide photo-induced optically active regions of a first type having a first optical activity state which is characteristic of having been formed by light of the first polarisation state, in order to encode covert information in the label using the locations of the first type of light-modified regions within the spatial arrangement of the label. 2. A method as claimed in claim 1 , wherein the modifying comprises using light of a second polarisation state to provide photo-induced optically active regions of a second type having a second optical activity state which is characteristic of having been formed by light of the second polarisation state, in order to encode covert information in the label using the locations of the second type of light-modified regions within the spatial arrangement of the label. 3. A method as claimed in claim 2 , wherein the modifying comprises using light of a third polarisation state to provide photo-induced optically active regions of a third type having a third optical activity state which is characteristic of having been formed by light of the third polarisation state, in order to encode covert information in the label using the locations of the third type of light-modified regions within the spatial arrangement of the label. 4. A method as claimed in claim 1 , wherein the first polarisation state is one of linear polarisation, left circular polarisation, and right circular polarisation. 5. A method as claimed in claim 1 , comprising defining the label as a portion of the material, and leaving unmodified at least a portion of the label; and/or defining the label as an array of addressable locations within a portion of the material and predetermining for each location an optical property. 6. A method as claimed in claim 1 , wherein the modifying comprises simultaneously modifying a plurality of regions of the material to provide light-modified regions of the first type; and/or wherein modifying regions of the material within the label comprises using light of the first polarisation state and a first wavelength, and light of the first polarisation state and a second wavelength. 7. A method as claimed in claim 1 , comprising providing a plurality of light-modified regions proximate one another to create a visible pixel. 8. A method as claimed in claim 1 , wherein the laser pulse has a duration of less than 100 nanoseconds. 9. A non-transitory computer-readable storage medium comprising instructions which, when executed by a computer, cause the computer to perform the method of claim 1 . 10. A labelling system for writing a label within a sample of a material, the label comprising a visible layout of light-modified regions in a predetermined spatial arrangement, the system comprising: a light source for modifying regions of the sample using light; and a polarisation apparatus for imparting any one of a plurality of polarisation states to the light for modifying the regions of the sample; and further comprising a beam splitting device for dividing the laser into a plurality of laser beams, each laser beam for simultaneously laser modifying a respective region of the sample; wherein the polarisation apparatus comprises a plurality of polarisers each arranged for simultaneously polarising a respective one of each of the plurality of laser beams; and optionally, wherein each of the plurality of polarisers comprises a linearly polarising element for imparting linear polarisation and a circularly polarising element for imparting circular polarisation. 11. A labelling system as claimed in claim 10 , wherein the polarisation apparatus comprises a plurality of polarisers each arranged for simultaneously polarising a respective one of each of the plurality of laser beams; and, wherein each of the plurality of polarisers comprises a linearly polarising element for imparting linear polarisation and a circularly polarising element for imparting circular polarisation. 12. A labelling system as claimed in claim 10 , comprising a plurality of shutters each operable to block a respective one of the plurality of laser beams; and/or focusing optics arranged to focus each of the plurality of laser beams at a respective predetermined location within the sample for laser modifying respective regions of the sample and writing the label. 13. A labelling system as claimed in claim 10 , wherein the plurality of laser beams are arranged to write in the sample along a straight line; and/or wherein the plurality of laser beams are arranged to write in the sample in a two-dimensional array. 14. A labelling system as claimed in claim 10 , wherein the light source is a laser for laser modifying regions of the sample using laser pulses, and wherein the laser has a pulse duration of less than 100 nanoseconds, and preferably less than 10 nanoseconds for laser modifying a sample. 15. A labelling system as claimed in claim 10 , further comprising a controller for predetermining properties of the label to include a plurality of optically active modified regions and their locations within the label. 16. A sample comprising a label, wherein the label displays a visible layout of light-modified regions in a predetermined spatial arrangement and comprises: a first light-modified region of a first type comprising chiral structures, which has been modified using light of a first polarisation state which is one of left circular polarisation and right circular polarisation, and has a first optical activity state characteristic of having been formed by light of the first polarisation state. 17. A sample as claimed in claim 16 , comprising a second light-modified region of a second type which has been modified using light of a second polarisation state and has a second optical activity state characteristic of having been formed by light of the second polarisation state; and, optionally, comprising a third light-modified region of a third type which has been modified using light of a third polarisation state and has a third optical activity state characteristic of having been formed by light of the third polarisation state. 18. A sample as claimed in claim 16 , comprising a plurality of light-modified regions of the first type which have been modified using light of the first polarisation state and which have a first optical activity state characteristic of having been formed by light of the first polarisation state; and, optionally, comprising a plurality of light-modified regions of a second type which have been modified using light of a second polarisation state and which have a second optical activity state characteristic of having been formed by light of the second polarisation state. 19. A method of encoding information including inputting information into a processor that is to be assigned to a label, encoding the information on the processor as covert information to be hidden in a spatial arrangement of different types of photo-induced optically active structures at different addressable locations in an array of light-modified regions in a material which is to form the label, outputting a signal for