Writing implements

The invention claimed is: 1. A writing implement configured to emit light for altering the appearance of a substrate comprising at least one photochromic material, wherein the writing implement comprises: an elongate body portion enabling a user to grip the writing implement, wherein the body portion comprises a proximal end and a distal end; a first light source configured to emit light from the proximal end, wherein the emitted light comprises at least a first colour component within a first wavelength range, wherein the first wavelength range comprises a spectral maximum within one of the ranges: 400 nm-425 nm, 425 nm-475 nm, 475 nm-525 nm, 525 nm-560 nm, 560 nm-590 nm, 590 nm-625 nm, or 625 nm-700 nm; a controller configured to receive input from a user, and to generate signals for controlling the first light source based on the received user input; a user-actuatable colour selector configured to receive a colour setting command from a user of the writing implement, and to provide the colour setting command to the controller; and a first modem, configured to enable the controller to communicate with a second modem, wherein the controller is configured to interrogate, via the first modem, to an electronic subsystem of a writing medium comprising a substrate, and to receive from the electronic subsystem of the writing medium designation data describing at least a first photochromic material comprised within the substrate of the writing medium, and wherein the controller is configured to compute the required intensity setting for at least the first colour component emitted by the first light source based on the received writing medium designation data. 2. The writing implement according to claim 1 , wherein the first light source is additionally configured to emit light comprising a second colour component within a second wavelength range, wherein the second wavelength range at least partially corresponds to a deactivation spectrum of a second photochromic material of the substrate, and wherein the first and second colour components are capable of being emitted from the first light source (i) individually, (ii) simultaneously, or (iii) in a predefined alternating sequence. 3. The writing implement according to claim 1 , wherein the second wavelength range comprises a spectral maximum within one of the ranges: 400 nm-425 nm, 425 nm-475 nm, 475 nm-525 nm, 525 nm-560 nm, 560 nm-590 nm, 590 nm-625 nm, or 625 nm-700 nm. 4. The writing implement according to claim 1 , wherein the first light source is selected from the group of: a light emitting diode configured to emit light in at least the first wavelength range, an adjustable variable colour LED, one or more laser light sources, or one or more polychromatic LEDs comprising corresponding filtering elements in at least the first wavelength range. 5. The writing implement according to claim 1 , wherein the controller is configured to receive the colour setting command from the user-actuatable colour selector, to compute a required intensity setting at least the first colour component of the first light source enabling a desired colour to be displayed on a substrate comprising at least one photochromic material, and to control the first light source to emit light comprising at least the computed first colour component at the computed intensity. 6. The writing implement according to claim 1 , wherein the writing implement further comprises a focussing element configured to adjust an extent of an illuminated region on a surface of a facing substrate by adjusting a beam size of a beam from the first light source. 7. The writing implement according to claim 6 , further comprising: a user-actuatable beam size selector capable of receiving a beam sizing command from the user, wherein the beam size selector is configured to control the focussing element to provide the beam size selected by the user, wherein the focussing element is actuated via a mechanical linkage to the beam size selector, or via an electronic actuation member controlled by the controller. 8. The writing implement according to claim 1 , further comprising: a second light source capable of generating light in a further spectrum at least partially corresponding to activation spectra of at least the first photochromic material, wherein the second light source generates light having a component in the wavelength range of 315-400 nm. 9. The writing implement according to claim 8 , wherein the second light source is configured to automatically deactivate when not in contact with the substrate. 10. The writing implement according to claim 1 , further comprising: a camera for providing feedback to the controller of a colour of a substrate obtained whilst operating the writing implement in combination with a specific combination of photochromic materials. 11. The writing implement according to claim 1 , further comprising: a wireless or wired communications modem, configured to enable the controller to communicate with an external communications node. 12. The writing implement according to claim 11 , wherein the controller is configured to interrogate, via the wireless or wired communications modem, an electronic subsystem of a writing surface comprising a substrate, and to receive from the electronic subsystem of the writing surface designation data describing at least a first and a second photochromic dye comprised within the substrate of the writing surface, and wherein the controller is configured to compute the required setting for the one or more of the first and second colour components of the first light source based on the received writing surface designation data. 13. A method for using a writing implement configured to emit light to alter the appearance of a substrate comprising at least one photochromic material, comprising: receiving, from a user-actuatable colour selector of the writing implement, a colour setting command from a user of the writing implement; providing the colour setting command to a controller of the writing implement; computing a required setting for at least a first colour component to be emitted by the first light source of the writing implement; controlling the first light source to emit light comprising at least the computed first colour component, wherein the first colour component is within a first wavelength range, that at least partially corresponds to a deactivation spectrum of a first photochromic material of a substrate of a proximate writing medium; disposing the proximal end of the writing implement relative to the proximate writing medium to expose the substrate of the proximate writing medium comprising at least the first photochromic material to the light generated by the first light source; communicating, via controller, with a second modem through a first modem; and interrogating, via the first modem, to an electronic subsystem of a writing medium comprising a substrate, and to receive from the electronic subsystem of the writing medium designation data describing at least a first photochromic material comprised within the substrate of the writing medium, and wherein the controller is configured to compute the required intensity setting for at least the first colour component emitted by the first light source based on the received writing medium designation data. 14. The method for using a writing implement according to claim 13 , further comprising: initializing a management application for the writing implement on a personal computing device or a smartphone; establishing a data communication connection between the personal computing device or the smartph