Design, Fabrication and Characterization of Micro Opto-Electro-Mechanical Systems

Several micro-opto-electro-mechanical structures were designed using the Multi-User MEMS Process (MUMPS). Specific design techniques were investigated for improving the capabilities of elevating flip up structures. The integration of several flip up microoptical structures into a microoptical system was explored with emphasis on the development of a microinterferometer. The thermal effects on the Modulus of Elasticity were determined by detecting the resonant frequency for a square Flexure Beam Micromirror Device. The resonance of the device was found to match theory to within 0.1 % and the Modulus of Elasticity was found to decrease by 0.041 GPa/K from 290 to 450 K. Thermal testing on each of the polysilicon MUMPS layers yielded a linear increase in resistivity of .000001 to .000002 Ohm-cm/K from 290 to 450 K. Several designs of a surface microoptical structure known as a variable grating were developed and characterized. The device yielded modulation intensities of up to 6.4 and 9.0 dB for the first two diffracted orders, respectively. The devices utilize heat drive actuator(s) to deflect a Poly 2 grating laterally, up to 4 micrometers, over a Poly 1 stationary grating which changes the period dimensions of the composite grating. This device can be effectively used for multichannel optical switching

Research and technology highlights of the Lewis Research Center

Highlights of research accomplishments of the Lewis Research Center for fiscal year 1984 are presented. The report is divided into four major sections covering aeronautics, space communications, space technology, and materials and structures. Six articles on energy are included in the space technology section

Physical adsorption of nitrogen gas on the polished surface of 347 stainless steel at very low pressures

Physical adsorption of nitrogen gas on polished surface of 347 stainless steel at low pressure

Study of advanced techniques for determining the long-term performance of components

A study was conducted of techniques having the capability of determining the performance and reliability of components for spacecraft liquid propulsion applications for long term missions. The study utilized two major approaches; improvement in the existing technology, and the evolution of new technology. The criteria established and methods evolved are applicable to valve components. Primary emphasis was placed on the propellants oxygen difluoride and diborane combination. The investigation included analysis, fabrication, and tests of experimental equipment to provide data and performance criteria

Sixty GHz IMPATT diode development

The objective of this program is to develop 60 GHz GaAs IMPATT Diodes suitable for communications applications. The performance goal of the 60 GHz IMPATT is 1W CW output power with a conversion efficiency of 15 percent and 10 year life time. During the course of the program, double drift (DD) GaAs IMPATT Diodes have been developed resulting in the state of the art performance at V band frequencies. A CW output power of 1.12 W was demonstrated at 51.9 GHz with 9.7 percent efficiency. The best conversion efficiency achieved was 15.3 percent. V band DD GaAs IMPATTs were developed using both small signal and large signal analyses. GaAs wafers of DD flat, DD hybrid, and DD Read profiles using molecular beam epitaxy (MBE) were developed with excellent doping profile control. Wafer evaluation was routinely made by the capacitance versus voltage (C-V) measurement. Ion mass spectrometry (SIMS) analysis was also used for more detailed profile evaluation

DEVELOPMENT OF PIEZORESISTIVE SILICON NANOWIRES (SINWS) AND THE APPLICATIONS IN NEMS TECHNOLOGY.

Ph.DDOCTOR OF PHILOSOPH

NASA SBIR abstracts of 1990 phase 1 projects

The research objectives of the 280 projects placed under contract in the National Aeronautics and Space Administration (NASA) 1990 Small Business Innovation Research (SBIR) Phase 1 program are described. The basic document consists of edited, non-proprietary abstracts of the winning proposals submitted by small businesses in response to NASA's 1990 SBIR Phase 1 Program Solicitation. The abstracts are presented under the 15 technical topics within which Phase 1 proposals were solicited. Each project was assigned a sequential identifying number from 001 to 280, in order of its appearance in the body of the report. The document also includes Appendixes to provide additional information about the SBIR program and permit cross-reference in the 1990 Phase 1 projects by company name, location by state, principal investigator, NASA field center responsible for management of each project, and NASA contract number

PHAROS: Shedding Light on the Near-Earth Asteroid Apophis

The Pharos mission to asteroid Apophis provides the first major opportunity to enhance orbital state and scientific knowledge of the most threatening Earth-crossing asteroid that has ever been tracked. Pharos aims to accomplish concrete and feasible orbit determination and scientific objectives while achieving balance among mission cost, nsk,and schedule. Similar to its ancient Egyptian namesake, Pharos acts as a beacon shedding light not only on the physical characteristics of Apophis, but also on its state as it travels through the solar system

Printed and drawn flexible electronics based on cellulose nanocomposites

Sustainability, flexibility, and low-power consumption are key features to meet the growing re- quirements of simplicity and multifunctionality of low-cost, disposable/recyclable smart electronic -of- -based composites hold po- tential to fulfill such demands when explored as substrate and/or electrolyte-gate, or as active channel layer on printed transistors and integrated circuits based on ionic responses (iontronics). In this work, a new generation of reusable, healable and recyclable regenerated cellulose hydro- gels with high ionic conductivity and conformability, capable of being provided in the form of stick- ers, are demonstrated. These hydrogels are obtained from a simple, fast, low-cost, and environ- mental-friendly aqueous alkali salt/urea dissolution method of native cellulose, combined with eration and simultaneous ion incorporation with acetic acid. Their electrochemical properties can be also merged with the mechanical robustness, thermal resistance, transparency, and smooth- - strate. Beyond gate dielectrics, a water-based screen-printable ink, composed of CMC binder and com- mercial zinc oxide (ZnO) semiconducting nanoparticles, was formulated. The ink enables the printing of relatively smooth and densely packed films on office paper with semiconducting func- tionality at room temperature. The rather use of porous ZnO nanoplates is beneficial to form per- colative pathways at lower contents of functional material, at the cost of rougher surfaces. The engineered cellulose composites are successfully integrated into flexible, recyclable, low- voltage (<3.5 V), printed electrolyte-gated office paper or on the ionically modified nanopaper. Ubiquitous calligraphy accessories are used -the- out on the target substrate, where are already printed the devices. Such concept paves the way for a worldwide boom of creativity, where we can freely create personal electronic kits, while having fun at it and without generating waste.Sustentabilidade, flexibilidade e baixo consumo energético são características chave para atender aos crescentes requisitos de simplicidade e multifuncionalidade de sistemas eletrónicos inteligentes de baixo custo, das- Compósitos à base de celulose têm potencial para atender a tais necessidades quando explora- dos como substrato e/ou porta-de-eletrólito ou como camada de canal ativo em transístores impressos e circuitos integrados baseados em respostas iónicas (iontronics). Neste trabalho, é demonstrada uma nova geração de hidrogéis reutilizáveis, reparáveis e recicláveis baseados em celulose regenerada, que apresentam alta condução iónica e conformabilidade, podendo ser fornecidos na forma de adesivos. Estes hidrogéis são obtidos a partir de um método simples, rápido, barato e amigo do ambiente que permite a dissolução de celulose nativa em soluções aquosas com mistura de sal alcalino e ureia, combinado com carboximetil celulose (CMC) para melhorar a sua robustez, seguido da regeneração e simultâneo enriquecimento iónico com ácido acético. As suas propriedades eletroquímicas podem ser combinadas com a inbase de celulose micro/nanofibrilada para obter um substrato eletrolítico semelhante a papel. Para além de portas-dielétricas, foi formulada uma tinta aquosa compatível com serigrafia, composta por CMC como espessante e nanopartículas semicondutoras de ZnO. A tinta permite a impressão de filmes pouco rugosos e densamente percolados sobre papel de escritório, e com funcionalidade semicondutora à temperatura ambiente. O uso alternativo de nanoplacas porosas de ZnO é benéfico para criar caminhos percolativos com menores teores de material funcional, apesar de se obter filmes rugosos. Os compósitos à base celulose foram integrados com sucesso em transístores e portas lógicas porta-eletrolítica, os quais foram impressos em papel de escritório ou no "nanopapel" iconicamente modificado. Acessórios de caligrafia permitem a fácil e rápida padronização de pistas condutoras/resistivas, desenhando-as no substrato alvo, onde estão impressos os dispositivos. Este conceito despoleta um mundo criativo, onde é possível criar livremente kits eletrónicos customizados de forma divertida e sem gerar resíduos

The 1997 NASA Aerospace Battery Workshop

This document contains the proceedings of the 30th annual NASA Aerospace Battery Workshop, hosted by the Marshall Space Flight Center on November 18-20, 1997. The workshop was attended by scientists and engineers from various agencies of the U.S. Government, aerospace contractors, and battery manufacturers, as well as international participation in like kind from a number of countries around the world. The subjects covered included nickel-cadmium, nickel-hydrogen, nickel-metal hydride, lithium, lithium-ion, and silver-zinc technologies, as well as various aspects of nickel electrode design