An apparatus comprising a light detector, a light source and optics

I/We claim: 1 - 15 . (canceled) 16 . An apparatus comprising: a light detector; a light source, laterally offset from the light detector by a first lateral offset; optics configured to receive light emitted by the light source and output the received light, wherein a majority of the light output is directed towards an offset region laterally offset from the light detector by at least a second lateral offset different to the first lateral offset. 17 . An apparatus as claimed in claim 16 , wherein a majority of the light output is directed towards an offset region laterally offset from the light detector by at least the second lateral offset comprising a greater lateral offset than the first lateral offset. 18 . An apparatus as claimed in claim 16 , wherein the optics are configured to redirect a majority of the light received towards the offset region laterally offset from the light detector by at least the second lateral offset comprising a greater lateral offset than the first lateral offset. 19 . An apparatus as claimed in claim 16 , wherein the first lateral offset is less than 2 mm and the second lateral offset is greater than 2 mm. 20 . An apparatus as claimed in claim 16 , wherein the optics are configured to diffract the received light. 21 . An apparatus as claimed in claim 16 , wherein the optics have a first side towards the light source and a second side towards the offset region, wherein the first side comprises a light in-coupling region and the second side comprises a light out-coupling region. 22 . An apparatus as claimed in claim 21 , wherein the in-coupling region comprises a diffractive structure. 23 . An apparatus as claimed in claim 21 , wherein the in-coupling region comprises at least one reflective element. 24 . An apparatus as claimed in claim 21 , wherein the diffractive structure comprises at least one of the following; an optical element, a diffraction grating, a periodical structure, a periodical pattern, a series of diffraction lines, a series of slits, a series of grooves. 25 . An apparatus as claimed in claim 21 , wherein the light in-coupling region is configured to in-couple the received light at a first angle from a normal to the in-coupling region and the light out-coupling region is configured to out-couple the light at a second angle from a normal to the out-coupling region, and wherein the second angle is greater than the first angle. 26 . An apparatus as claimed in claim 21 , wherein the light out-coupling region is laterally offset from the light in-coupling region and interconnected by a lateral light guiding region. 27 . An apparatus as claimed in claim 16 , wherein a majority of the light output is directed across an annular offset region centered on an axis through the light detector. 28 . An apparatus as claimed in claim 16 , wherein the optics are comprised in a window overlying both the light detector and the light source and extending laterally for at least the second offset away from the light detector. 29 . An apparatus as claimed in claim 16 , wherein the optics comprise a reflective surface configured to reflect light received from the offset region and comprising an aperture to emit light from the light source and an aperture to provide light to the light detector. 30 . An apparatus as claimed in claim 16 , wherein the reflective surface is a mirrored surface on an internal side of the optics. 31 . An apparatus as claimed in claim 16 , configured as a reflective photoplethysmography sensor or pulse oximeter. 32 . An apparatus as claimed in claim 16 , configured as a reflective photoplethysmography sensor or pulse oximeter comprising driving circuitry for the light source and detection circuitry for the light detector and control circuitry for coordinating operation of the light source and light detector. 33 . A method comprising: enabling receiving of light emitted by a light source, laterally offset from a light detector by a first lateral offset, and outputting of at least some of the received light, wherein a majority of the light output is directed towards an offset region laterally offset from the light detector by at least a second lateral offset different to the first lateral offset. 34 . A method according to claim 33 , wherein the second lateral offset is a greater lateral offset than the first lateral offset.