Spelling suggestions: "subject:"thin fim optics"" "subject:"hin fim optics""
1 |
Design and manufacture of infra-red bandpass filterWu, S-Y. January 1986 (has links)
No description available.
|
2 |
50%-50% Beam Splitters Using Transparent Substrates Coated by Single- or Double-Layer Quarter-Wave Thin FilmsSudradjat, Faisal 22 May 2006 (has links)
A pair of light beams that have orthogonal polarizations and equal intensity can be generated through reflection and refraction of a monochromatic light at a dielectric surface. Sytematic procedures to design beam splitters which can produce such output light beams are described in this thesis. Two designs that are of particular interest are prismatic substrates coated by a single layer and a double layer of thin films. Specific examples of each beam splitter in the visible and infrared are included. The performance of each beam splitter as a function of incidence angle, film thickness, and wavelength is also discussed.
|
3 |
Nano-optics of Perforated Metallic FilmsSun, Tianyi January 2014 (has links)
Thesis advisor: Krzysztof Kempa / Thesis advisor: Zhifeng Ren / In the past few decades, accompanied by the fascinating development of micro- and nano-fabrication techniques, the successful integration of subwavelength optics and multilayer structures has led to a number of remarkable discoveries. In this work, I present both experimental and theoretical investigations of the optics of thin metallic films with micro-/nano-scale perforations in the UV-VIS-IR ranges. Different fabrication techniques are employed, including nanosphere lithography, grain boundary lithography, crack templates, and sintered nanoparticles. The optical properties these films are studied, revealing important relation between optical response and the film geometry. This includes the evolution of plasmonic resonances in a series of periodic arrays of holes in a metallic film, with hole sizes increasing gradually until an array of islands is achieved. This evolution is an analog of the percolation problem, and critical phenomena are observed at the percolation threshold. Multilayer broad-band electromagnetic absorbers are also designed and fabricated based on the study of these perforated films. Parallel with these observations, an analytical coherence model is proposed to bridge the subwavelength and superwavelength limits. Such a model also provides an alternative way to handle thin random structures, avoiding large quantity of numerical computation. These studies can find applications in the design of sensors, ultrathin solar cells and transparent electrodes, as well as in applications where random structures are widely used. / Thesis (PhD) — Boston College, 2014. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Physics.
|
4 |
Measurement and manipulation of the emitter orientation in organic thin-film devicesHänisch, Christian 12 August 2024 (has links)
Within the last decade, organic light-emitting diodes (OLEDs) have evolved to be one of the major players in the display panel market. For instance, in 2023, it is expected that about half of the produced smartphones incorporate an OLED display. This rapid development is based on the high image quality and fast response time of OLEDs compared to the previously dominating technology of liquid crystal displays. Additionally, OLEDs feature interesting properties like mechanical flexibility, areal light emission, and semi-transparency that allow for futuristic device designs in display or lighting applications.
One of the major drawbacks of OLEDs is their limited efficiency compared to conventional light-emitting diodes (LEDs). Due to the high refractive index of their active, light-emitting layers, a large portion of the internally generated light is lost because of optical effects like total internal reflection. One promising approach, which increases the amount of outcoupled light, is to align the transition dipole moment (TDM) of the emitter molecules parallel to the interface planes of the device. In the best case, this method can yield an efficiency improvement of more than 50%.
This thesis focuses on both the accurate measurement and the exploration of control strategies of the emitter orientation. Furthermore, a software tool is developed, which supports the device design and data evaluation.
First, the state-of-the-art emitter orientation measurement technique is analyzed, which is angle-resolved photoluminescence spectroscopy (ARPS). A ray-optics model is developed in order to quantify the impact of experimental deviations from the ideal measurement configuration. In particular, a displacement of the light-emission spot from the rotation center of the measurement setup is investigated. The resulting alteration of the observable angle-resolved emission spectrum is calculated and the impact on the consequent orientation factor is estimated. Based on the optical model, a refined setup structure is proposed, which not only circumvents a part of the identified problems but also yields a ten-times increased signal-to-noise ratio (SNR).
Subsequently, it is explored how the emitter orientation can be controlled by external physical parameters during and after processing. Selected phosphorescent organic model systems are exposed to elevated temperatures and electric fields. In the first measurement series, the impact of the substrate temperature during deposition (𝑇sub) is investigated. It is found that the emitter orientation can be tuned from a more horizontal configuration at room temperature (RT) to an isotropic distribution if 𝑇sub approaches the glass transition temperature (𝑇g) of the material. This observation fits well to previous results of glass physics obtained with similar materials. In a second, alternative test series, OLEDs are treated after processing. Here, an emitter system comprising the host material NPB and the emitter Ir(piq)3 is investigated. For a treatment temperature of 125℃ and a simultaneously applied reverse bias of -20V the external quantum efficiency (EQE) of the OLEDs is increased by more than 50%. The effect is observed for two different emitter concentrations of 1 wt% and 10 wt% and OLEDs in the optical minimum and maximum. Finally, the long-term stability of the emitter orientation is experimentally
demonstrated over a time frame of 1.5 years and for storage temperatures up to 95% of the host material’s 𝑇g.
Preceding the presentation of the experimental results, the software-tool simojio is introduced, which is developed in this thesis. It enables an efficient and convenient workflow throughout the emitter orientation investigations and supports various tasks such as the device and setup design, the processing and visualization of xperimental data, and the extraction of orientation factors from angle-resolved emission spectra.
Simojio provides a graphical user interface (GUI), which enables a flexible configuration of input parameters and one-dimensional layer structures. The corresponding numerical and graphical results are neatly arranged in a separate, tab-structured window. The actual calculation and processing algorithms are implemented in custom-made python modules, which can be modified and extended by the users according to their specific needs. Simojio is applied to most of the emitter orientation related simulation and data-processing tasks, which are presented in this thesis. However, due to its flexible, modular architecture, it is not restricted to this use case but may be utilized for highly diverse numerical problems, which are based on the evaluation of generic parameters or one-dimensional structures.
|
5 |
Fabrication of Perovskite Solar Cells & Applications in Multijunction ConfigurationsHosseinian Ahangharnejhad, Ramez January 2019 (has links)
No description available.
|
6 |
Goniochromatic Gradients : Dichroic Color, Thin-Film Optics and Artificial LightEggeling, Erik Axel January 2018 (has links)
This thesis is about the multicolored gradients seen when using certain dichroic color lters with artificial light. As of now, this phenomenon lacks a unambiguous descriptor, and “Goniochromatic Gradient” is proposed. With help of optical physics, the science of color vision and information about dichroic products, principles for the relationship between goniochromatic gradients and dichroic filters are formulated for anyone interested in exploring this visual phenomenon.
|
Page generated in 0.077 seconds