Patents Assigned to LIGHT IN LIGHT S.R.L.
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Patent number: 9416940Abstract: An embodiment of an illumination device comprising a broad band artificial light source and a non-liquid chromatic diffuser transparent to visible light comprising a dispersion of elements of nanometrical dimensions of a first material with of certain refractive index in a second material with different refractive index, wherein the light is scattered producing a separation and different distribution between cold and hot components of the light originally produced by the source, according to a scattering process in “Rayleigh” regime. The device allows illumination effects similar to those of natural outdoor environments to be reproduced in indoor environments.Type: GrantFiled: January 6, 2014Date of Patent: August 16, 2016Assignee: Light in Light S.R.L.Inventors: Paolo Di Trapani, Marta Cecilia Pigazzini
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Publication number: 20140192509Abstract: An embodiment of an illumination device comprising a broad band artificial light source and a non-liquid chromatic diffuser transparent to visible light comprising a dispersion of elements of nanometrical dimensions of a first material with of certain refractive index in a second material with different refractive index, wherein the light is scattered producing a separation and different distribution between cold and hot components of the light originally produced by the source, according to a scattering process in “Rayleigh” regime. The device allows illumination effects similar to those of natural outdoor environments to be reproduced in indoor environments.Type: ApplicationFiled: January 6, 2014Publication date: July 10, 2014Applicant: LIGHT IN LIGHT S.R.L.Inventors: Paolo DI TRAPANI, Marta Cecilia PIGAZZINI
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Patent number: 8622560Abstract: An embodiment of an illumination device comprising a broad band artificial light source and a non-liquid chromatic diffuser transparent to visible light comprising a dispersion of elements of nanometrical dimensions of a first material with of certain refractive index in a second material with different refractive index, wherein the light is scattered producing a separation and different distribution between cold and hot components of the light originally produced by the source, according to a scattering process in “Rayleigh” regime. The device allows illumination effects similar to those of natural outdoor environments to be reproduced in indoor environments.Type: GrantFiled: June 19, 2009Date of Patent: January 7, 2014Assignee: Light In Light S.R.L.Inventors: Paolo Di Trapani, Marta Cecilia Pigazzini
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Patent number: 8469550Abstract: An embodiment of a solid optical sky-sun diffuser, which comprises a transparent solid matrix embedding a dispersion of transparent nanoparticles having an average size d in the range 10 nm?d?240 nm; wherein: the ratio between the blue and red scattering optical densities ??Log [T(450 nm)]/Log [T(630 nm)] of said diffuser falls in the range 5???2.5, where T(?) is the Monochromatic Normalized Collinear Transmittance; in at least one propagation direction, said Monochromatic Normalized Collinear Transmittance is T(450 nm)?0.4; in at least one propagation direction said Monochromatic Normalized Collinear Transmittance is T(450 nm)?0.9, said propagation direction being the same or different from that at which said Monochromatic Normalized Collinear Transmittance is T(450 mm)?0.4.Type: GrantFiled: December 23, 2010Date of Patent: June 25, 2013Assignee: Light in Light S.R.L.Inventors: Paolo Di Trapani, Alessandro Averchi, Marta Cecilia Pigazzini
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Publication number: 20130070463Abstract: An embodiment of a solid optical sky-sun diffuser, which comprises a transparent solid matrix embedding a dispersion of transparent nanoparticles having an average size d in the range 10 nm?d?240 nm; wherein: the ratio between the blue and red scattering optical densities ??Log [T(450 nm)]/Log [T(630 nm)] of said diffuser falls in the range 5???2.5, where T(?) is the Monochromatic Normalized Collinear Transmittance; in at least one propagation direction, said Monochromatic Normalized Collinear Transmittance is T(450 nm)?0.4; in at least one propagation direction said Monochromatic Normalized Collinear Transmittance is T(450 nm)?0.9, said propagation direction being the same or different from that at which said Monochromatic Normalized Collinear Transmittance is T(450 nm)?0.4.Type: ApplicationFiled: June 19, 2009Publication date: March 21, 2013Applicant: LIGHT IN LIGHT S.R.L.Inventors: Paolo DI TRAPANI, Alessandro AVERCHI, Marta PIGAZZINI
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Publication number: 20110216542Abstract: An embodiment of a solid optical sky-sun diffuser, which comprises a transparent solid matrix embedding a dispersion of transparent nanoparticles having an average size d in the range 10 nm?d?240 nm; wherein: the ratio between the blue and red scattering optical densities ??Log [T(450 nm)]/Log [T(630 nm)] of said diffuser falls in the range 5???2.5, where T(?) is the Monochromatic Normalized Collinear Transmittance; in at least one propagation direction, said Monochromatic Normalized Collinear Transmittance is T(450 nm)?0.4; in at least one propagation direction said Monochromatic Normalized Collinear Transmittance is T(450 nm)?0.9, said propagation direction being the same or different from that at which said Monochromatic Normalized Collinear Transmittance is T(450 mm)?0.4.Type: ApplicationFiled: December 23, 2010Publication date: September 8, 2011Applicant: LIGHT IN LIGHT S.R.L.Inventors: Paolo DI TRAPANI, Alessandro AVERCHI, Marta Cecilia PIGAZZINI
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Publication number: 20110194270Abstract: An embodiment of an illumination device comprising a broad band artificial light source and a non-liquid chromatic diffuser transparent to visible light comprising a dispersion of elements of nanometrical dimensions of a first material with of certain refractive index in a second material with different refractive index, wherein the light is scattered producing a separation and different distribution between cold and hot components of the light originally produced by the source, according to a scattering process in “Rayleigh” regime. The device allows illumination effects similar to those of natural outdoor environments to be reproduced in indoor environments.Type: ApplicationFiled: June 19, 2009Publication date: August 11, 2011Applicant: LIGHT IN LIGHT S.R.L.Inventors: Paolo Di Trapani, Marta Cecilia Pigazzini