Studies of the electro-optical properties of liquid-crystal Fresnel lens based on cholesteric blue phase

Wang, Yu-yin

02 August 2010

In this study, a liquid crystal Fresnel lens based on the cholesteric blue phase liquid crystals is proposed. Blue phases are liquid-crystalline phases that appear in a very small temperature range between a cholesteric phase and an isotropic phase. There are three types of blue phases; BP¢¹,BP¢º and BP¢». The BP¢¹ and BP¢º are characterized by a spatially periodic director field with lattice constants comparable to the wavelength of visible light. Because of the structural symmetry, blue phases are optically isotropic. In this study, the electro-optical properties of the BP¢º under different applied voltages are investigated. The results reveal that the Bragg reflection of the BPII has a red shift by increasing the applied voltage and a phase transition from BPII to cholesteric phase occurs at the high voltage regime (>100V). Based on the results, an electrically controlled blue phase Fresnel lens with polarization independence and high diffraction efficiency is demonstrated.

polarization independence

Fresnel liquid crystal lens with voltage modulation

Lin, Jia-Huei

20 July 2007

We fabricated the liquid crystal cell which had the property of the diffraction optical element. The concentric electrode had been fabricated on an indium-tin-oxide (ITO) substrate by etching technology. With the application of a proper voltage, it produces an inhomogeneous grating-like electric field in space to form phase Fresnel liquid crystal lens. Because of liquid crystals (LCs) are excellent electro-optic materials with electrical and optical anisotropies. Their optical properties can easily be modulated by the external electric field. Hence based on the electro-optic properties, the function of the as-constructed phase Fresnel liquid crystal lens has been studied in this paper. In this study, we discuss the diffraction efficiency of Fresnel LC lenses and collocated plano-convex to form dual focal length optical element.

Fresnel lens

liquid crystal lens

zone plate

Fresnel

LTCC Fresnel Lens Designs For 24 GHz SoP Automotive Radar Applications

Khalid, Muhammad Umair

12 1900

In this thesis, a novel System-on-Package (SoP) antenna concept has been developed for 24 GHz automotive radar applications. High-performance applications such as automotive radars require miniaturization, excellent performance and a high level of integration. The multi-layer Low-temperature co-fired ceramic (LTCC) SOP approach is an effective solution to meet these stringent needs as it offers not only great capability of integrating embedded functions, but also the real estate efficiency and cost-savings. The antenna concept utilizes a mixed LTCC tape system and combines for the first time a fractal antenna array and an integrated grooved Fresnel lens. The overall gain of the system is 15 dB which includes a 6 dB gain enhancement due to the integration of the lens. The bandwidth is 1.8 GHz which is 7.5% of the center frequency. The three types of dielectric Fresnel lenses (grooved, multi-dielectric and perforated) have been investigated as gain enhancement and beam shaping components for high performance LTCC SoP applications. A high dielectric constant material has been utilized to realize the lenses in the LTCC medium. All three lenses perform well with significant gain enhancement (>6 dB) and beam shaping despite their compact sizes (2.4 cm x 2.4 cm). The excellent performance makes all three lenses highly suitable for high performance SoP applications with the grooved lens being most suitable due to the relative ease of fabrication.

LTCC Fresnel Lens Designs

SoP Automotive Radar Applications

Development of an Enclosed Evaporation Chamber Utilizing a Fresnel Lens Solar Concentrator

Planz, Bridger T

08 1900

This thesis project investigates the configuration of an enclosed evaporation chamber with the intention of converting seawater into potable freshwater. The evaporation chamber's sole heat source is provided by a Fresnel lens, located above the chamber, which concentrates sunlight onto a 3-inch diameter focal plate built into the core of the chamber. The design of the evaporation chamber is modeled after a solar still and is coupled with a heat exchanger to boost efficiency of the system. The chamber was designed with the objectives of being portable, lightweight, low cost, corrosion resistant, interchangeable, and size convenient with the goal of producing 1 Liter of freshwater per hour of operation. The evaporation chamber consists of two primary components, a core and an attached arrangement of fins, all of which are heated via the Fresnel lens. A consistent intake of 2 grams/second of saltwater enters from the top of the chamber and is then gravity fed across the fins. Fin orientation has been designed to inhibit the flow rate of water within the chamber, maximizing the surface area of contact with the heated fins. The evaporation chamber was modeled through SOLIDWORKS and underwent a physical optimization study to reduce material usage while maximizing potential for heat transfer and minimizing fluid flow rate. A symmetric profile of one quarter of the chamber was then simulated in COMSOL Multiphysics. Concentrated solar heat flux through a Fresnel lens was applied to the receiver on the top of the core. The simulation was split into a preheating and an evaporation phase. A profile approximation for the fluid flow was modeled by the CFD module. Following computer simulations, the evaporation chamber was constructed and tested.

Desalination

Solar Still

Fresnel Lens

Evaporation

Evaporation Chamber

Design, fabrication, and testing of a variable focusing micromirror array lens

Cho, Gyoungil

29 August 2005

A reflective type Fresnel lens using an array of micromirrors is designed and fabricated using the MUMPs?? surface micromachining process. The focal length of the lens can be rapidly changed by controlling both the rotation and translation of electrostatically actuated micromirrors. The suspension spring, pedestal and electrodes are located under the mirror to maximize the optical efficiency. The micromirror translation and rotation are plotted versus the applied voltage. Relations are provided for the fill-factor and the numerical aperture as functions of the lens diameter, the mirror size, and the tolerances specified by the MUMPs?? design rules. Linnik interferometry is used to measure the translation, rotation, and flatness of a fabricated micromirror. The reflective type Fresnel lens is controlled by independent DC voltages of 16 channels with a 0 to 50V range, and translational and torsional stiffness are calibrated with measured data. The spot diameter of the point source by the fabricated and electrostatically controlled reflective type Fresnel lens is measured to test focusing quality of the lens.

Variable focusing lens

Micromirror

Fresnel lens

Fast-response

Electrostatic actuators

Surface micromachining

Design, fabrication, and testing of a variable focusing micromirror array lens

Cho, Gyoungil

29 August 2005

A reflective type Fresnel lens using an array of micromirrors is designed and fabricated using the MUMPs?? surface micromachining process. The focal length of the lens can be rapidly changed by controlling both the rotation and translation of electrostatically actuated micromirrors. The suspension spring, pedestal and electrodes are located under the mirror to maximize the optical efficiency. The micromirror translation and rotation are plotted versus the applied voltage. Relations are provided for the fill-factor and the numerical aperture as functions of the lens diameter, the mirror size, and the tolerances specified by the MUMPs?? design rules. Linnik interferometry is used to measure the translation, rotation, and flatness of a fabricated micromirror. The reflective type Fresnel lens is controlled by independent DC voltages of 16 channels with a 0 to 50V range, and translational and torsional stiffness are calibrated with measured data. The spot diameter of the point source by the fabricated and electrostatically controlled reflective type Fresnel lens is measured to test focusing quality of the lens.

Variable focusing lens

Micromirror

Fresnel lens

Fast-response

Electrostatic actuators

Surface micromachining

Λειτουργική και αισθητική ένταξη συστημάτων αξιοποίησης της ηλιακής ενέργειας στα κτίρια / Building integration of solar energy systems regarding practical and aesthetacal aspects

Σιαμπέκου, Χριστιάνα

28 June 2007

Στην παρούσα εργασία μελετήθηκαν βιβλιογραφικά οι ενεργειακές και αισθητικές παράμετροι που συμβάλλουν στην εξοικονόμηση ενέργειας στον κτιριακό τομέα. Παράλληλα έγινε πειραματική μελέτη μιας καινοτόμου προτεινόμενης διάταξης με φακούς Fresnel για τον έλεγχο του φωτισμού και της θερμοκρασίας των εσωτερικών χώρων των κτιρίων, καθώς και τριών πειραματικών διατάξεων θερμικών ηλιακών συλλεκτών με σκοπό την εκτίμηση της απόδοσης των συλλεκτών με πολύχρωμη απορροφητική επιφάνεια σε σχέση με αυτή των μαύρων συλλέκτων και σε σχέση με το πλεονέκτημα της αισθητικής ενσωμάτωσής τους στα κτίρια. / The abstract is not available.

Ηλιακή ενέργεια

Φακοί Fresnel

Συλλέκτες

Κτίρια

720.472

Solar energy

Fresnel lens

Collectors

Buildings

Optimalizace difraktivních struktur pro koncentrátorový fotovoltaický panel / Optimization of diffractive structures

Chalupa, Petr

January 2011

This work is focused on the possibility of sunlight concentration on silicon dies or silicon stripes. The main aim of this work is the design and realization of the concentration element, or system, which is based on diffractive optics and optimized to achieve possibly high optical efficiency. The theoretical part deals with problems of photovoltaic systems and sunlight concentration. The practical part deals with design of optical microstructures and their realization by e-beam lithography using the electron-beam writer BS600. Microstructures created in the electron resist on silicon substrates or embossed into transparent materials are measured in the laboratory. We evaluated and compared their optical properties, which gives some feedback for further optimizations. Transparent elements are tested with real silicon dies and so overall properties of a prototyped photovoltaic module can be evaluated.

Etude de l'apport des lentilles de Fresnel pour la vision / Study of the properties of Fresnel lenses for infrared imagery applications

Grulois, Tatiana

17 November 2015

De nombreux travaux de recherche sont actuellement menés afin de rendre les caméras infrarouges plus compactes et moins chères. En infrarouge refroidi, le défi est de proposer un système cryogénique compact pouvant être intégré sur un système à faible capacité d’emport tel qu’un drone. Dans ce cadre, l’utilisation d’une lentille mince en remplacement du filtre froid du cryostat permettrait de limiter la masse supplémentaire à refroidir et de maintenir constant le temps de descente en froid. En infrarouge non refroidi, l’objectif est de concevoir un petit capteur infrarouge bas coût « grand public » que l’on pourra inviter dans nos maisons, nos voitures, voire nos smartphones. L’utilisation d’une lentille mince ouvrirait la voie à des imageurs infrarouges peu onéreux.Dans ce contexte, j’ai choisi d’étudier le comportement d’une lentille de Fresnel dite d’ordre élevé intégrée dans une configuration optique de type landscape lens. J’ai montré que cette architecture optique mince peut fonctionner sur une large bande spectrale et sur un grand champ de vue. Cependant, les lentilles de Fresnel d’ordre élevé étant mal modélisées dans la littérature, j’ai développé mes propres algorithmes de modélisation afin de prévoir les performances d’un tel système. Grâce à cette étude, j’ai ensuite proposé deux systèmes d’imagerie, l’un refroidi et l’autre non refroidi. Chacun des deux systèmes a fait l’objet d’un prototype et a été entièrement caractérisé expérimentalement. Les résultats expérimentaux obtenus m’ont permis de valider les performances anticipées théoriquement et de mettre en évidence un phénomène de chromatisme diffractif latéral. Ces systèmes ouvrent la voie à deux nouvelles générations de caméras infrarouges. J’ai montré que l’imageur infrarouge refroidi possède une qualité image satisfaisante pour des applications d’aide au pilotage. Le prototype non refroidi est lui entièrement compatible avec des applications domotiques. Il a suscité l’intérêt de différents acteurs industriels. / Miniaturizing infrared optical systems is a research area of great interest nowadays in order to make them lighter and cheaper. In the cooled infrared domain, the objective is to design a compact cryogenic camera that could be integrated in a small-capacity carrier like a drone. To that purpose, replacing the cold filter of the dewar by a thin lens would limit the cooled down mass and would stabilize the cool down time. In the uncooled infrared domain, the objective is to design a small general use camera at a low cost. Its use could be generalized in houses, cars or even smartphones. The use of a thin lens would also pave the way for low-cost infrared imagers. In this context, I chose to study the imagery properties of a high order Fresnel lens integrated in a landscape lens architecture. I have demonstrated that this architecture can be used within a wide spectral range and over a wide field of view. However, current optical design software perform poorly on high order Fresnel lenses. Therefore, I have developed my own algorithms to model the performances of such a system. With that study, I have been able to design two prototypes with their own objectives: the first one is cooled and the second one is uncooled. Both systems have been demonstrated and entirely characterized. The experiment results have validated the theoretical performances of the systems and they highlighted an original kind of lateral chromatic aberration.These two systems pave the way to two new generations of infrared cameras. Indeed, on one hand I have proved that the cooled infrared quality may be good enough to qualify for an aircraft piloting aid. On the other hand, the uncooled prototype is fully compatible with low cost surveillance applications and the system raised the interest of various companies.

Imagerie infrarouge

Miniaturisation

Optique diffractive

Lentille de Fresnel

Infrared imagery

Miniaturization

Diffractive optics

Fresnel lens

Design, Fabrication and Measurement of Millimeter Fresnel Lens and Helical Antenna using Additive Manufacturing

Jeong, Kyoung Ho

January 2017

No description available.

Electrical Engineering

Engineering