JUNO Conceptual Design Report

The Jiangmen Underground Neutrino Observatory (JUNO) is proposed to determine the neutrino mass hierarchy using an underground liquid scintillator detector. It is located 53 km away from both Yangjiang and Taishan Nuclear Power Plants in Guangdong, China. The experimental hall, spanning more than 50 meters, is under a granite mountain of over 700 m overburden. Within six years of running, the detection of reactor antineutrinos can resolve the neutrino mass hierarchy at a confidence level of 3-4$\sigma$, and determine neutrino oscillation parameters $\sin^2\theta_{12}$, $\Delta m^2_{21}$, and $|\Delta m^2_{ee}|$ to an accuracy of better than 1%. The JUNO detector can be also used to study terrestrial and extra-terrestrial neutrinos and new physics beyond the Standard Model. The central detector contains 20,000 tons liquid scintillator with an acrylic sphere of 35 m in diameter. $\sim$17,000 508-mm diameter PMTs with high quantum efficiency provide $\sim$75% optical coverage. The current choice of the liquid scintillator is: linear alkyl benzene (LAB) as the solvent, plus PPO as the scintillation fluor and a wavelength-shifter (Bis-MSB). The number of detected photoelectrons per MeV is larger than 1,100 and the energy resolution is expected to be 3% at 1 MeV. The calibration system is designed to deploy multiple sources to cover the entire energy range of reactor antineutrinos, and to achieve a full-volume position coverage inside the detector. The veto system is used for muon detection, muon induced background study and reduction. It consists of a Water Cherenkov detector and a Top Tracker system. The readout system, the detector control system and the offline system insure efficient and stable data acquisition and processing.Comment: 328 pages, 211 figure

Definition and preliminary design of the LAWS (Laser Atmospheric Wind Sounder), volume 2, phase 2

Accurate knowledge of winds is critical to our understanding of the earth's climate and to our ability to predict climate change. Winds are a fundamental component of highly nonlinear interactions between oceans, land surfaces, and the atmosphere. Interactions at these interfaces are the focus of much climate change research. Although wind information is critical for advancing our understanding, currently most of our description of atmospheric motion is obtained indirectly - i.e., derived from observations of temperature and moisture through geostrophic relationships. Direct measurement of winds over the globe is limited to land-based rawinsonde surface stations and a few ship/aircraft reports. Cloud track winds using satellite imagery are calculated but must be used with great care. The LAWS mission objective, therefore, is to provide diurnal and global direct observations of winds - an observation that will incrementally enhance our knowledge of the earth's climate and physical processes responsible for its change. This document is Volume 2 of the LAWS Phase 2 Final Study Report and describes the definition and preliminary design of the LAWS instrument, together with details of the laser breadboard program conducted during the last 18 months of the program

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

Dynamic Laser Fault Injection Aided by Quiescent Photon Emissions in Embedded Microcontrollers: Apparatus, Methodology and Attacks

Internet of Things (IoT) is becoming more integrated in our daily life with the increasing number of embedded electronic devices interacting together. These electronic devices are often controlled by a Micro-Controller Unit (MCU). As an example, it is estimated that today’s well-equipped automobile uses more than 50 MCUs. Some MCUs contain cryptographic co-processors to enhance the security of the exchanged and stored data with a common belief that the data is secured and safe. However many MCUs have been shown to be vulnerable to Fault Injection (FI) attacks. These attacks can reveal shared secrets, firmware, and other confidential information. In addition, this extracted information obtained by attacks can lead to identification of new vulnerabilities which may scale to attacks on many devices. In general, FI on MCUs corrupt data or corrupt instructions. Although it is assumed that only authorized personnel with access to cryptographic secrets will gain access to confidential information in MCUs, attackers in specialized labs nowadays may have access to high-tech equipment which could be used to attack these MCUs. Laser Fault Injection (LFI) is gaining more of a reputation for its ability to inject local faults rather than global ones due to its precision, thus providing a greater risk of breaking security in many devices. Although publications have generally discussed the topic of security of MCUs, attack techniques are diverse and published LFI provides few and superficial details about the used experimental setup and methodology. Furthermore, limited research has examined the combination of both LFI and Photo-Emission Microscopy (PEM), direct modification of instructions using the LFI, control of embedded processor resets using LFI, and countermeasures which simultaneously thwart other aspects including decapsulation and reverse engineering (RE). This thesis contributes to the study of the MCUs’ security by analyzing their susceptibility to LFI attacks and PEM. The proposed research aims to build a LFI bench from scratch allowing maximum control of laser parameters. In addition, a methodology for analysis of the Device Under Attack (DUA) in preparation for LFI is proposed, including frontside/backside decapsulation methods, and visualization of the structure of the DUA. Analysis of attack viability of different targets on the DUA, including One-Time Programmable (OTP) memory, Flash memory and Static Random Access Memory (SRAM) was performed. A realistic attack of a cryptographic algorithm, such as Advanced Encryption Standard (AES) using LFI was conducted. On the other hand, countermeasures to the proposed attack techniques, including decapsulation/RE, LFI and PEM, were discussed. This dissertation provides a summary for the necessary background and experimental setup to study the possibility of LFI and PEM in different DUAs of two different technologies, specifically PIC16F687 and ARM Cortex-M0 LPC1114FN28102. Attacks performed on on-chip peripherals such as Universal Asynchronous Receiver/Transmitter (UART) and debug circuity reveal new vulnerabilities. This research is important for understanding attacks in order to design countermeasures for securing future hardware

Systems and Methods for the Spectral Calibration of Swept Source Optical Coherence Tomography Systems

This dissertation relates to the transition of the state of the art of swept source optical coherence tomography (SS-OCT) systems to a new realm in which the image acquisition speed is improved by an order of magnitude. With the aid of a better quality imaging technology, the speed-up factor will considerably shorten the eye-exam clinical visits which in turn improves the patient and doctor interaction experience. These improvements will directly lower associated medical costs for eye-clinics and patients worldwide. There are several other embodiments closely related to Optical Coherence Tomography (OCT) that could benefit from the ideas presented in this dissertation including: optical coherence microscopy (OCM), full-field OCT (FF-OCT), optical coherence elastography (OCE), optical coherence tomography angiography (OCT-A), anatomical OCT (aOCT), optical coherence photoacoustic microscopy (OC-PAM), micro optical coherence tomography (µ OCT), among others. In recent decades, OCT has established itself as the de-facto imaging process that most ophthalmologists refer to in their clinical practices. In a broader sense, optical coherence tomography is used in applications when low penetration and high resolution are desired. These applications include different fields of biomedical sciences including cardiology, dermatology, and pulmonary related sciences. Many other industrial applications including quality control and precise measurements have also been reported that are related to the OCT technology. Every new iteration of OCT technology has always come about with advanced signal processing and data acquisition algorithms using mixed-signal architectures, calibration and signal processing techniques. The existing industrial practices towards data acquisition, processing, and image creation relies on conventional signal processing design flows, which extensively employ continuous/discrete techniques that are both time-consuming and costly. The ideas presented in this dissertation can take the technology to a new dimension of quality of service

Articles indexats publicats per investigadors del Campus de Terrassa: 2013

Aquest informe recull els 228 treballs publicats per 177 investigadors/es del Campus de Terrassa en revistes indexades al Journal Citation Report durant el 2013Preprin

Space Communications: Theory and Applications. Volume 3: Information Processing and Advanced Techniques. A Bibliography, 1958 - 1963

Annotated bibliography on information processing and advanced communication techniques - theory and applications of space communication

Small business innovation research program solicitation: Closing date July 16, 1990

This is the eighth annual solicitation by NASA addressed to small business firms, inviting them to submit proposals for research, or research and development, activities in some of the science and engineering areas of interest to NASA. The solicitation describes the Small Business Innovative Research (SBIR) program, identifies eligibility requirements, outlines the required proposal format and content, states proposal preparation and submission requirements, describes the proposal evaluation and award selection process, and provides other information to assist those interested in participating in NASA's SBIR program. It also identifies the technical topics and subtopics for which SBIR proposals are solicited. These cover a broad range of current NASA interests, but do not necessarily include all areas in which NASA plans or currently conducts research. High-risk high pay-off innovations are desired

The development of an in-vivo method for assessing the antithrombotic properties of pharmaceutical compounds

The formation of a thrombus stems from the malfunction of a normal physiological function referred to as haemostasis and the activity of blood platelets; such thrombi give rise to debilitating and often fatal strokes. Consequently much effort is associated with the search for pharmacological compounds capable of their prevention or dispersion. · Most of the primary screens associated with such work rely on in-vitro tests and in separating the blood from it's vasculature, the influence and results associated with several naturally occuring moderators may be lost. There therefore exists the incentive to develop more representative in-vivo screening methods. Following an introduction to the underlying physiology and pharmacology and a review of established screening methods, this thesis proceeds to describe the development of a novel technique suitable for such in-vivo studies. It's inception is shown to be a consequence of an amalgamation of ultrasonic methods associated with the clinical detection of occlusions and laser Doppler velocimetry. Both topics are individually surveyed and then brought together through a concept whereby the efficacy of compounds might be evaluated in animal models by measuring the velocity of blood in the fluid jet formed distal to an induced thrombus.The main underlying assumption is that the jet velocity will reflect the degree of encroachment of the thrombus into the vasculature. In accord with the evolved measurement rationale there then follows a description of a specific laser Doppler velocimeter and some associated experiments, designed to qualitatively appraise the validity of the underlying assumptions. The ensuing results in turn give rise to the design of a laser Doppler microscope, an analyser for extracting the required velocity information from the Doppler shift spectrum and an additional series of experiments. Central to this latter stage of validation is the use of a thrombus analogue in a narrow bored glass flow tube. Finally, some preliminary in-vivo experiments and results are presented

Two-contact semiconductor devices for ultra-fast switching and synchronisation

The information contained within this document is a study of the properties of two-contact semiconductor laser devices. The emphasis of this study was on understanding the behaviour and properties of semiconductor laser devices where regions of saturable absorption are introduced into the Fabry-Perot cavity, and to demonstrate that the inherent nonlinearity of such a device can be harnessed to provide all-optical switching and routing functions that could be incorporated within future multi-gigabit optical telecommunications networks. Important advances in the field are presented in the assessment and performance of such two-contact functional components when operated both below threshold, as nonlinear optical amplifiers, and above threshold, as self-pulsating lasers. Detailed measurements on the nonlinear optical amplifiers are presented defining the dependence of both the steady state and dynamic characteristics on optical input power and wavelength. These results are compared with theoretical predictions from a model incorporating material gain calculations based on strict momentum conservation. It is shown that such devices can be used to convert the wavelength of Gb/s data between the 1.3mum and 1.55mum telecommunications window of silica fibre, and that fast all-optical switching of gigabit/s data packets with sub-ns rise and fall times is achievable. Detailed system data Bit-Error-Ratio (BER) measurements are used to highlight the systems potential of such functions. Also presented are significant advances in the field of self-pulsating laser devices and their use in multi-gigabit all-optical clock recovery circuits. The pulsation behaviour is investigated in detail and a detailed study of the locking behaviour of these devices for Return-to-Zero-'soliton' data format made. Some of the properties investigated are: tuning and locking range, clock purity, data pattern dependence, clock lock-up time, pulse spectral variation (chirp). In addition BER measurements using the clock recovery circuit in a 20 Gb/s OTDM system has demonstrated their potential application. Operation with Non-Return-to-Zero format data is also demonstrated in combination with the nonlinear amplifier devices. In summary the results contained within this thesis show that two-contact devices have characteristics and functionality suitable for use in many application areas consistent with the development of future synchronous gigabit all-optical telecommunication networks