Atomiser for use in electronic cigarette with optical vaporisation system

The invention claimed is: 1. An atomiser for an electronic cigarette, comprising: a housing including at least one air inlet, at least one air outlet and a liquid inlet; a light guide extending into the housing; an optical absorber within the housing; and a vaporisation chamber within the housing, wherein a liquid flow path is provided from the liquid inlet towards the optical absorber and the vaporisation chamber, and an air flow path is defined from the at least one air inlet in the housing to the vaporization chamber, and wherein the light guide is configured to couple light from a vaporising light source towards the optical absorber which can generate heat by absorbing light from the vaporising light source, wherein the optical absorber includes a liquid absorber for absorbing vaporisable liquid received in the liquid inlet, and wherein the optical absorber is provided within the vaporization chamber axially above an end face of the light guide with respect to an axial direction of the housing. 2. The atomiser of claim 1 , wherein the light guide is a solid prism that light from the vaporising light source can propagate within. 3. The atomiser of claim 1 , wherein light guide has an upper coupling surface and a lower coupling surface, wherein the lower coupling surface is configured to couple with the vaporising light source and the upper coupling surface is configured to couple with the optical absorber. 4. The atomiser of claim 3 , wherein the lower coupling surface is angled such that the lower coupling surface can receive a light beam in a transverse direction and redirect said light beam into an axial direction. 5. The atomiser of claim 3 , wherein the lower coupling surface is configured to engage with a receiving portion of the vaporising light source. 6. The atomiser of claim 5 , wherein the lower coupling surface is formed on a projection extending from the housing. 7. The atomiser of claim 1 , wherein the at least one air outlet is located axially above the optical absorber in the vaporization chamber. 8. The atomiser according to claim 1 , wherein the vaporising light source is a laser. 9. A cartridge comprising a liquid store and the atomiser of claim 1 . 10. The cartridge of claim 9 , wherein the vaporising light source is a laser. 11. An electronic cigarette device comprising a mouthpiece portion and a power supply portion, wherein the mouthpiece portion comprises: a liquid store, a receiving portion configured to receive a removable atomiser, and a mouthpiece having a vapor outlet channel, and wherein the power supply portion comprises: a power source; and a vaporising light source configured to receive electrical energy from the power source, wherein the vaporising light source is configured to couple light to a light guide located within the atomiser. 12. The electronic cigarette device according to claim 11 , wherein the vaporising light source is housed within a recessed portion of the receiving portion, the recessed portion configured to receive a protruding portion of the light guide. 13. The electronic cigarette device according to claim 11 , wherein the mouthpiece portion further comprises at least one seal positioned around an internal circumference of the receiving portion. 14. The electronic cigarette device of claim 11 , further comprising an airflow channel provided between an air inlet and the mouthpiece, wherein the vaporising light source is provided in or adjacent the airflow channel at a position between a location of the receiving portion configured to receive the atomiser and the air inlet so that the airflow can be heated by the vaporising light source. 15. The electronic cigarette device according to claim 11 , wherein the vaporising light source is a laser. 16. The electronic cigarette device according to claim 11 , wherein the mouthpiece portion further comprises an optical absorber configured to absorb radiation emitted by the vaporising light source. 17. A method of operating an electronic cigarette, comprising the steps of: providing an atomiser comprising: a housing including at least one air inlet, at least one air outlet and a liquid inlet; a light guide; an optical absorber; and a vaporisation chamber received within the housing; providing a vaporising light source and a liquid reservoir separately from the atomiser; providing a flow of vaporisable liquid from the liquid reservoir towards the optical absorber and the vaporisation chamber; providing vaporising light from the vaposing light source; coupling the vaporising light from the vaporising light source towards the optical absorber using the light guide; and absorbing the light at the optical absorber in order to generate heat and vaporise the vaporisable liquid, wherein the optical absorber includes a liquid absorber for absorbing vaporisable liquid received in the liquid inlet, and wherein the optical absorber is provided within the vaporization chamber axially above an end face of the light guide with respect to an axial direction of the housing. 18. The method of claim 17 , further comprising the step of replacing the atomiser.