Patent application number | Description | Published |
20080252988 | Method of Fabricating Tridimensional Micro- and Nanostructures as Well as Optical Element Assembly Having a Tridimensional Convex Structure Obtained by the Method - A method is for forming three-dimensional micro- and nanostructures, based on the structuring of a body of material by a mould having an impression area which reproduces the three-dimensional structure in negative form. This method includes providing a mould having a substrate of a material which can undergo isotropic chemical etching, in which the impression area is to be formed. An etching pattern is defined on (in) the substrate, having etching areas having zero-, uni- or bidimensional extension, which can be reached by an etching agent. A process of isotropic chemical etching of the substrate from the etching areas is carried out for a corresponding predetermined time, so as to produce cavities which in combination make up the impression area. The method is advantageously used in the fabrication of sets of microlenses with a convex three-dimensional structure, of the refractive or hybrid refractive/diffractive type, for forming images on different focal planes. | 10-16-2008 |
20100186798 | PHOTOVOLTAIC DEVICE WITH ENHANCED LIGHT HARVESTING - A photovoltaic device optical system for enhanced light harvesting with a transparent layer of dielectric material having on one side an array of micro-lenses and on the opposite side a metal reflective film with an array of openings. The micro-lenses focus direct sunlight impinging thereon through the openings, to separate direct sunlight and diffuse sunlight. The photovoltaic device has a first photovoltaic cell system for the exploitation of the direct sunlight located in the opposite hemi-space of the micro-lenses array with respect to the plane of the openings array and a second photovoltaic cell system for the exploitation of diffuse sunlight, located in the same hemi-space containing the micro-lenses array with respect to the plane of the openings array. | 07-29-2010 |
20110303634 | METHOD AND SYSTEM FOR MANUFACTURING NANOSTRUCTURES - A method and a system for manufacturing two-dimensional and three-dimensional nanostructures and nanodevices are described, wherein the formation of the nanostructure (of the nanodevice) on a target substrate is made, at a millimetric or super-millimetric distance from the substrate, by the deposition of material emitted in the form of an atomic/molecular beam having a selected pattern corresponding, at an enlarged scale, to the desired pattern of the nanostructure (nanodevice). The projection of the patterned beam through a diaphragm, associated with the substrate at a micrometric or sub-micrometric distance and having at least one shaped aperture of nanometric size, brings about the formation of a nanostructure pattern which is a convolution of the patterned beam with the diaphragm aperture. | 12-15-2011 |
Patent application number | Description | Published |
20090028194 | TUNABLE LASER - A mode hop-free tunable laser including a gain medium, a microfabricated blazed grating, defining an external cavity of a given length, the blazed grating lying in a general plane and including a plurality of elongate beams carrying mutually parallel respective reflection surfaces spaced apart from one another with a predefined pitch, and actuating elements designed so as to allow displacements of the assembly with respect to a grating support within a plane substantially parallel to the grating general plane, and including actuation elements designed so as to apply a stretching and a displacement of the assembly in a direction transverse to said reflection surfaces, the blazed grating being arranged relative to an incident light beam provided by the gain medium so that the incident light beam impinges on the reflection surfaces with a substantially normal incident angle. | 01-29-2009 |
20100220395 | FABRICATION PROCESS OF A MICROFABRICATED BLAZED GRATING - A blazed grating is disclosed as well as mode hop-free tunable lasers and a process for fabricating gratings of this type. The grating lies in a general plane and includes a plurality of elongate beams carrying mutually parallel respective reflection surfaces spaced apart from one another with a predefined pitch, each of these reflection surfaces having a normal direction inclined at a grating angle α to the normal direction of the general plane. The grating includes a plurality of resilient suspension arms connected to the beams and intended to be fastened to a grating support. A first pair of comb electrodes is provided for applying a mechanical force to this assembly, being placed on a first side of the grating, along an axis transverse to the beams, and designed so as to allow the pitch of the grating to be modified in response to the application of the mechanical force. | 09-02-2010 |
20110299078 | SPECTROMETER - A spectrometer includes:
| 12-08-2011 |