Abstract: The present invention relates to sweet confectionery products, in particular sweet confectionery products—with reduced content of sugar and calories. The present invention furthermore relates to methods for producing such products, the present invention relates to gelled low calories sweet confectionery products comprising at least one intensive sweetener, at least one texture giving agent, and two or more low calorie bulking agents.

Abstract: The invention relates to a radiation detector suitable for use in connection with particle therapy applications. The detector comprises at least one set of scintillating optical guides which upon exposure to incident radiation generate scintillating light. The optical guides are arranged in an array, such as in a so-called harp configuration, for detecting a transversal radiation beam profile. The scintillating optical guides are provided in a glass-based material doped with a rare earth dopant. Of particular interest are the rare earth materials: Ytterbium, Holmium, Thulium and Erbium.

Abstract: The present invention relates to sweet confectionery products, in particular sweet confectionery products- with reduced content of sugar and calories. The present invention furthermore relates to methods for producing such products, the present invention relates to gelled low calories sweet confectionery products comprising at least one intensive sweetener, at least one texture giving agent, and two or more low calorie bulking agents.

Abstract: A system and method are provided for writing refractive index structures, such as gratings, in an optical waveguide. There is no requirement for structures having interferometric stability of the control elements. The method includes providing first and second light beams, the first beam having a first polarization state and a first wavevector, the second beam having a second polarization state different from the first polarization state, and a second wavevector different from the first wavevector. The method also includes illuminating a diffractive optical element by at least a part of the first beam and a part of the second beam so as to diffract parts of the first and second beams, and positioning the medium in relation to the diffractive element so as to illuminate the first part of the medium by the diffracted parts of the first and second beams.

Abstract: A system and method are provided for writing refractive index structures, such as gratings, in an optical waveguide. There is no requirement for structures having interferometric stability of the control elements. The method includes providing first and second light beams, the first beam having a first polarization state and a first wavevector, the second beam having a second polarization state different from the first polarization state, and a second wavevector different from the first wavevector. The method also includes illuminating a diffractive optical element by at least a part of the first beam and a part of the second beam so as to diffract parts of the first and second beams, and positioning the medium in relation to the diffractive element so as to illuminate the first part of the medium by the diffracted parts of the first and second beams.

Abstract: A method of producing an active optical waveguide having asymmetric polarization, said method comprising the steps of (a) providing an active optical waveguide (10) comprising: (i) a transverse refractive index profile (21) comprising a guiding region (11), an intermediate region (13), and a non-guiding region (12); (ii) a transverse photorefractive dopant profile (31) comprising a constant or graded photorefractive dopant concentration within at least one of the guiding, non-guiding and intermediate regions, except that the photorefractive dopant is not located solely in the guiding region; and (iii) exhibiting in said guiding region, intermediate region, or both, light guiding modes having different polarizations; and (b) exposing at least a part (10a, 10b) of the active optical waveguide to an effective transverse illumination of light (20) reacting with the photorefractive dopant and modifying said transverse refractive index profile; said part of the active optical waveguide being exposed to a fluence se