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Application des techniques multiporteuses de type OFDM pour les futurs systèmes de télécommunications par satellite / Multicarrier transmission techniques (OFDM) for future satellite communications systemsHo, Anh Tai 30 March 2009 (has links)
Cette thèse étudie la possibilité d'appliquer les techniques de modulations multiporteuses de type OFDM dans les futurs systèmes de communications par satellite. Elle traite notamment du problème de synchronisation au niveau récepteur pour les systèmes de diffusion par satellite en bande Ka. L'objectif est de proposer une structure de réception ayant besoin du moins de ressources possibles pour synchroniser afin d'optimiser l'efficacité spectrale du système et obtenir un gain par rapport à un système monoporteuse. Une première partie du travail consiste à proposer et valider la structure de synchronisation. Ses performances en termes d'efficacité spectrale sont ensuite évaluées et comparées avec celles du DVB-S et du DVB-S2. Pour finir une étude de la complexité calculatoire de la structure proposée est menée. Les sources d'erreurs de synchronisation ayant été identifiées et leur impact sur les performances du système évalué, il s'avère que, mis à part l'erreur de fréquence horloge, les autres erreurs de synchronisation doivent être estimées et corrigées. La transmission en mode continu dans un système de diffusion par satellite permet l'utilisation d'une structure bouclée de type Non-Data-Aided en réception pour corriger les erreurs de synchronisation. Ceci évite l'utilisation de pilotes et permet ainsi d'améliorer l'efficacité spectrale du système. Cependant, cette structure de type aveugle nécessite une première étape de synchronisation grossière afin de limiter les interférences intersymboles et inter-porteuses pouvant conduire à une non convergence des boucles. Le procédé de synchronisation global s'effectue donc en deux étapes : une étape de synchronisation grossière utilisant l'intervalle de garde et quelques pilotes, suivie d'une étape de synchronisation plus fine utilisant des boucles de type Non-Data-Aided. L'étape de synchronisation grossière est dimensionnée (durée de l'intervalle de garde et nombre de pilotes) pour atteindre les performances d'estimation nécessaires à la convergence des boucles de la structure de synchronisation fine, tout en optimisant l'efficacité spectrale. L'efficacité spectrale obtenue est comparée avec celle des systèmes DVB-S et DVB-S2. Les performances de l'étape de synchronisation fine, en termes de dégradation du taux d'erreur binaire due aux erreurs de synchronisation, sont évaluées en l'absence puis en présence de bruit de phase. Les points de fonctionnement de la structure proposée sont donnés en utilisant les gabarits de bruit de phase des normes DVB-S2 et DVB-SH. Un gabarit de bruit de phase de Wiener conduisant aux gigues acceptées par le DVBS2 à l'entrée du décodeur est établi. Le temps d'accrochage, ainsi que la complexité calculatoire, de la structure proposée sont également évalués. / This thesis studies the applicability of OFDM techniques for future satellite telecommunications systems. In particular, he treats the synchronization problem at the receiver for satellite broadcasting systems in Ka band. The system uses QAM modulation with M phase stages and works in continuous mode, at small signal to noise ratio (typically at Eb/N0 = 0dB). The main objective of this thesis is to propose a receiver synchronization structure using as least resources as possible in order to optimize spectral efficiency. Two studies are carried out. The first study consists of proposing and validating a synchronization structure in the aim of optimizing spectral efficiency. The second study evaluates the performance of this structure then, compares it with existing standards such as DVB-S and DVB-S2 in terms of spectral efficiency. For first study, synchronization errors have been identified and their impact on system performance evaluated. These results prove that excepting clock frequency error, other synchronization errors have to be estimed and corrected. The transmission in continuous mode for fixed satellite broadcasting system allows the use of NDA (Non-Data-Aided) loop structure in order to avoid the use of pilots, then improve spectral efficiency. However, these algorithms need a coarse synchronization stage in order to limit interference terms. So, the synchronization includes a coarse stage in order to limit interference terms and a finer stage in order to improve system performance. For coarse synchronization stage, simulation results prove that algorithms using guard interval give better performance than whom using pilots. The second study evaluates performance of the proposed structure. In coarse synchronization stage, this evaluation allows to specify guard interval length then, calculate and compare system performance in terms of spectral efficiency with its in DVB-S and DVB-S2 standards. Then, performance evaluation of fine synchronization stage allows to calculate degradations of the proposed structure in the absence and in presence of phase noise models, one of important parameters in a telecommunications system. This stage allows not only to define operating points of the proposed structure in presence of phase noise models in existing standards but also to define phase noise mask of Wiener model supported by this structure. Finally, a study on the hanging time of the proposed structure allows to evaluate the time neccesary to this structure, based on blind algorithms, to be converged. Another study also evaluates the complexity of this structure. This study shows that the synchronization structure proposed in this thesis uses little resources both in terms of spectral efficiency and number of calculations.
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Calculos de estabilidade e divisão de fases por meio de redes neurais artificiais / Phase splitting and stability calculations by means of artificial neural networksSchmitz, Jones Erni 07 August 2018 (has links)
Orientador: Mario de Jesus Mendes / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-07T19:04:30Z (GMT). No. of bitstreams: 1
Schmitz_JonesErni_D.pdf: 1427141 bytes, checksum: 5c994ce371331fd4c3ac0f3e3861f49b (MD5)
Previous issue date: 2006 / Resumo: A simulação de processos é um componente fundamental de uma grande variedade de atividades de Engenharia de Processos, tais como a Otimização Online, o controle em Tempo Real, a Identificação, etc. O cálculo de Equilíbrio de Fases é uma atividade fundamental em qualquer simulação de processos de separação. O elevado tempo computacional deste cálculo provocado pela sua natureza iterativa pode criar incompatibilidades entre a atividade de simulação e as aplicações em tempo real que ela integra. O objetivo deste trabalho foi desenvolver um método alternativo simples, mas suficientemente preciso, para realizar os cálculos de equilíbrio de fases na simulação de processos de separação de sistemas complexos. Entende-se por tal, sistemas que apresentam problemas de Equilíbrio Líquido-Líquido e de Equilíbrio Líquido-Líquido-Vapor, como é o caso dos que possuem um Azeótropo Heterogêneo. Pelas suas propriedades, as Redes Neurais Artificiais surgem naturalmente como candidatas alternativas para esta tarefa. Como objeto de aplicação foram escolhidos dois sistemas que apresentam um azeótropo heterogêneo, o sistema binário acetato de etila - água e o sistema ternário etanol - acetato de etila - água. Para gerar os dados usados no treinamento das redes foi implementado um método convencional de cálculo de equilíbrio de fases, adequado à complexidade dos sistemas escolhidos, o método de Pham & Doherty. Para a resolução do problema da estabilidade de fases, a primeira etapa do cálculo do equilíbrio de fases, foram testados dois tipos de redes neurais artificiais (RNAs), as Redes Neurais Artificiais Probabilísticas (RNAPs) e os Perceptrons. Com os perceptrons foram encontradas dificuldades para atingir a precisão desejada, sendo necessário recorrer a perceptrons com várias camadas escondidas. Já as RNAPs apresentaram uma excelente precisão, embora a sua simulação seja mais lenta. Perceptrons simples de uma só camada escondida foram usados com êxito na solução da segunda etapa do cálculo de equilíbrio de fases, o problema da divisão de fases. Combinando as redes desenvolvidas para cada uma das etapas foi criada uma ferramenta que permite resolver qualquer problema de equilíbrio de fases para os sistemas estudados. A precisão dos resultados fornecidos pelas redes neurais é comparável à dos apresentados pelos métodos tradicionais, mas os cálculos do equilíbrio de fases feitos usando redes neurais foram mais rápidos. Pode-se concluir que as redes neurais artificiais constituem uma alternativa válida aos métodos tradicionais do cálculo do equilíbrio de fases baseados em equações de estado para sistemas complexos como os avaliados / Abstract: Process simulation is a basic component of different Process Engineering activities such as On-line Optimization, Model Predictive Control, Identification, etc. The calculation of Phase Equilibrium appears as a fundamental task in any simulation of a separation process. However, the high computational time due to the iterative nature of this calculation makes it oft unsuitable for use with real time process analysis and synthesis strategies. The objective of this work is to develop a simple but accurate method to perform the phase equilibrium calculations required to the study of the behavior of complex systems. As such we mind those systems who present liquid-liquid and vapor-liquid-liquid phase equilibrium problems, such as systems with a heterogeneous azeotrope do. Given their inherent ability to learn and recognize non-linear and highly complex relationships, artificial neural networks (ANNs) appear to be well suited for such a task. Two chemical systems, the binary ethyl acetate ¿ water and the ternary ethanol ¿ ethyl acetate ¿ water were chosen; both systems present a miscibility gap and a heterogeneous azeotrope. The data sets used to train the ANNs were computed using the method of Pham & Doherty. Two kinds of neural networks were tried to solve the phase stability problem, namely the probabilistic neural networks (PNNs) and the perceptrons. In order to attain an acceptable precision perceptrons had to be trained with several hidden layers. Even though, PNNs got slightly better results than the perceptrons. Simple perceptrons were able to deliver the required precision when trained to predict the compositions of phases in equilibrium. Coupling the ANNs trained for phase stability with those trained for phase division a tool was obtained that can solve any phase equilibrium problem for the two chosen systems. Predictions made with the use of neural networks were faster than those made using the traditional methods, and delivered comparable precision / Doutorado / Sistemas de Processos Quimicos e Informatica / Doutor em Engenharia Química
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High Performance Sub-Sampling Phase Detector based Ring-Oscillator Phase-Locked LoopsNagam, Shravan Siddartha January 2020 (has links)
Phase locked loops (PLLs) used to generate high precision clocks are integral components in the majority of modern day electronic systems such as Analog-to-Digital Converters (ADC), Digital-to-Analog Converters (DAC), transceivers, processors, etc. The accuracy of this clocks that effects the overall performance of the system is measured in terms of its jitter, phase noise, spurious tones, etc. For example, the jitter in an ADC sampling clock can result in uncertainty of the sampling instant and can result in degradation of the effective number of bits (ENOB) of the ADC, phase noise on the other hand can result in reciprocal mixing in receivers and leakage into adjacent channels in transmitters. Therefore it is very desirable to design PLLs that generate clean clocks with minimal area and power consumption.
This thesis discusses two PLL prototypes in 65nm CMOS technology. The first prototype demonstrates a sub-sampling phase detector (SSPD) based feed-forward noise cancellation (FFNC) scheme in a Type-II ring oscillator (RO) PLL. The FFNC technique uses the already available noise information at the SSPD output and cancels it from the PLL output. The proposed FFNC achieves a 1.4x reduction in jitter, 19.5dB power supply induced noise suppression at the PLL output while consuming a small area of 0.022mm2.
The second prototype demonstrates a Type-I SSPD based RO PLL. The SSPD sample-and-hold action generates a steady-state voltage to tune the VCO directly. This eliminates the issue of high reference spurs generally associated with a Type-I PLL. Also the Type-I PLL occupies a very low area of 0.008mm2 as it avoids the usage of bulky integrating capacitor generally used in a Type-II PLL. The PLL with 2.4GHz output achieves a phase noise of -122.6dBc/Hz at a 1MHz offset and the power consumption is 6.1mW. It achieves reference spurs of -64.2dBc, RMSjitter of 422fs and FoMjitter of -239.7dB.
In addition to the two prototypes, a theoretical discussion on an auxiliary FFNC (AFFNC) cancellation scheme that can work with a generic Type-II RO PLL is also included. The AFFNC technique uses a stand alone SSPD to extract and cancel noise from the VCO output. The SSPD is embedded into an alignment loop for proper noise extraction and cancellation. Along with AFFNC, which uses one reference edge for noise extraction, a Double Sampled AFFNC (DS-AFFNC) which utilizes both the rising and falling edge of the reference for noise extraction is also included. By using both the reference edges, higher cancellation BW is achieved.
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Computational Study of Microstructure Evolution during Phase TransformationsYu, Taiwu January 2021 (has links)
No description available.
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Acid-phase and Two-phase Codigestion of FOG in Municipal WastewaterVarin, Ross A. III 11 June 2013 (has links)
Acidogenic codigestion of fats, oils, and greases (FOG) was studied at 37"C using suspended sludge digesters operated as sequencing batch reactors (SBRs). Volatile fatty acid (VFA) production was found to increase with larger FOG loading rates, although this increase was insignificant compared the theoretical VFA production from FOG addition. Long chain fatty acids (LCFAs) were found to have accumulated in the reactor vessel in semi-solid balls that were primarily composed of saturated LCFAs.
Adding high FOG loadings to an APD not acclimated to LCFAs allowed for a mass balance calculation and resulted in near complete saturation of unsaturated LCFAs and significant accumulation of LCFA material in the digester, which was found to be mostly 16:0, 18:0, and 18:1. While 18:2 and 18:3 LCFAs were nearly completely removed, 18:0 and 14:0 LCFAs were produced, most likely from the degradation of 18:2 and 18:3 LCFAs. The APD pH was found to have a significant impact on the amount of accumulated LCFA material present, with higher pH levels resulting in less accumulated material.
Two-phase codigestion of FOG was also studied using an APD followed by gas-phase (GPD) digesters. The two-phase systems were compared by FOG addition to the APD versus GPD. FOG addition to the APD resulted in 88% destruction of LCFAs, whereas FOG addition to the GPD resulted in 95% destruction of LCFAs. Accumulated LCFAs in the APD receiving FOG were composed mostly of stearic acid (18:0). The low pH of the APD is likely the cause of LCFA accumulation due to saturation of unsaturated LCFAs. / Master of Science
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The promotion and benefits of play in foundation phase teaching and learningImenda, Grace Mbangweta January 2012 (has links)
A Dissertation submitted to the Faculty of Education in fulfilment of the requirements of the Degree of Master of Education in the Department of Curriculum and Instructional Studies at the UNIVERSITY OF ZULULAND, South Africa, 2012. / This study investigated: [a] the ways in which Foundation Phase educators promoted indoor and outdoor play for their learners; [b] which play activities the foundation phase educators valued most and what educational benefits they associated with these play activities; and [c] which play activities were valued most by foundation phase learners and the educational benefits they associated with these play activities.
The study was based on the “mixed methods” (blended) research paradigm, involving the collection of both qualitative and quantitative data from focus group interviews and a semi-structured questionnaire. Information from the educators was collected by way of a questionnaire comprising both structured and non-structured sections. Quantitative data were analysed by the use of Microsoft Office Excel, while qualitative information collected from the interviews with the learners was analysed qualitatively. Altogether, seventy-two (72) and thirty-two (32) foundation phase educators and learners, respectively, participated in the study. These were drawn from former Model C, township and rural schools.
On the first research question dealing with the promotion of play, the educator respondents reported that they promoted numeracy through (a) the use of market stands and playing shop (using Rands, litres, and centimetres); (b) play activities involving bean bags – to promote counting; (c) providing opportunities for learners to play with building blocks as counters; (d) playing mathematics games – e.g., touching eyes, ears, knees and legs to promote counting in twos; (e) the use of number games, flash cards and counting blocks to promote the creation of number patterns; (f) games, such as running using sacks, putting water in water bottles, using heavy and light objects, short and long objects – to develop the concept of measurement; and (g) giving learners opportunities to actively take part in number rhymes and songs which promoted the development of measurement concepts.
Plays were also used in the teaching / learning of literacy through strategies that included story-telling, role-playing, rhymes and singing, as well as dialogue; learners taking turns in playing games; learners drawing pictures about song or rhymes; learners imitating animal sounds, word matching games and acting out stories; word games, phonic wheels, reading games; making letters with dough; alphabet story, such as Sammy snake, fireman Fred.
In promoting life skills through play, the educators reported using weaving, kneading and pretence play / role playing; matching different types of foods, charts, stories and story-telling; activities around environmental management; plays calling for help; painting, colouring, handwork; music; thinking and reasoning games; plays involving rendering sympathy and empathy to others; poems- on how to cross the road.
On the second research question, the educator respondents reported that play was important for developing learners’ cognitive, social, motor, language and inter-personal skills. Furthermore, the educators reported that play enabled learners to (a) expand their imagination, (b) become more emotionally mature, (c) enhance their state of school readiness, (d) develop social skills, (e) develop initiative, (f) build and enhance their autonomy and sense of self, (g) take risks, (h) reveal their personalities, and (i) develop self-confidence and self-esteem..
On the third and final research question, the respondents reported that they liked playing with wire cars, hide and seek, wooden cars, soccer, playing domino games, puzzles, snakes and ladders, with water and sand, making necklaces, playing with wooden blocks, tyre racing, climbing on the jungle gym, colouring and painting. playing house, netball, tuck, dolls, blocks, laptops, playing games on touch, hockey, rugby, cycling, ski-boarding, ludo, rugby, athletics, amagenda, arigogo, hop scotch, umlabalaba.
The discussion of the results of this study showed that the findings fell in line with the literature review. Recommendations for classroom practice, curriculum planning and implementation, as well as further research have been made.
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Anpassad styrketräning tillämpat i menscykelns olika faser - En systematisk översikt / Adapted resistance training applied to the different phases of the menstrual cycle - A systematic reviewLarsson, Michaela, Eliasson, Moa January 2022 (has links)
Bakgrund: Periodisering av träning kan vara av intresse för tränande kvinnor och deras coacher då hormonerna fluktuerar under menscykelns faser. Mycket forskning om styrketräning är gjorda på män. Att studera ökning av muskelstyrka hos kvinnor är komplext då deras hormoner fluktuerar månadsvis och anses kunna påverka studieresultat under menstruationscykeln. Syftet med litteraturstudien var att sammanställa studierna som finns inom ämnet och därefter dra nytta av kvinnors hormoner för att optimera muskelstyrka och att undvika risken för nya skador eller drabbas av de risker styrketräning kan minska. Syfte: Att granska och sammanställa studier gällande eventuella skillnader i muskelstyrka under menscykelns olika faser samt gällande eventuell effekt av periodiserad träning på muskelstyrkan i menscykeln faser. Metod: En systematisk översiktsstudie med både interventionsstudier och observationsstudier inkluderade. En första sökning gjordes på PubMed och fem studier valdes ut och kvalitetsgranskades enligt PEDro scale. Därefter utökades sökningen för observationsstudier vilket gjordes på Google scholar. Där framkom ytterligare fyra studier och dessa granskades enligt SBU:s granskningsmall för observationsstudier. Resultat: Resultatet tyder på att det inte finns någon tydlig skillnad mellan faserna då resultatet skiljde sig mellan de olika studierna. Forskningen inom ämnet är för bristfällig för att komma till någon adekvat slutsats gällande resultatet. Konklusion: Vidare forskning, samt fler studier med samma utfallsmått behövs för att kunna dra slutsatser utifrån frågeställningarna. / Background: To periodize training can be of interest for athletic females and their coaches because the hormones fluctuate during the menstrual cycle. A large part of the research in strength training has been done on men. To study an increase in muscle strength in women is complex because their hormones fluctuate monthly and are considered to be able to influence study results during the menstrual cycle. The purpose of this literature study was to compile the studies available in the subject and then take advantage of women's hormones to optimize muscle strength and to avoid the risk of new injuries or suffer from the risks strength training can reduce. Objective: The aim of this study was to review and to compile studies regarding the possible differences in muscle strength during the menstrual cycle and the possible effect of periodized training applied to the different phases of the menstrual cycle. Method: A systematic review study included observational studies and intervention studies. The search was done on PubMed and five studies were included, then quality reviewed according to PEDro scale. The search for observational studies were made on Google scholar and four studies were selected, then reviewed according to the SBU’s review template for observational studies. Results: The results indicated that there is no evident difference between the phases as the results were different between the different studies. The research on the subject is too insufficient to make an adequate conclusion. Conclusion: Further research, as well as more studies with the same outcome measure, are needed to be able to come to a conclusion based on the issues.
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Brain Rhythm Fluctuations: Envelope-Phase Modeling and Phase SynchronizationPowanwe, Arthur Sadrack 12 May 2021 (has links)
Fast neural oscillations known as beta (12-30Hz) and gamma (30-100Hz) rhythms are recorded across several brain areas of various species. They have been linked to diverse functions like perception, attention, cognition, or interareal brain communication.
The majority of the tasks performed by the brain involves communication between brain areas. To efficiently perform communication, mathematical models of brain activity require representing neural oscillations as sustained and coherent rhythms. However, some recordings show that fast oscillations are not sustained or coherent. Rather they are noisy and appear as short and random epochs of sustained activity called bursts.
Therefore, modeling such noisy oscillations and investigating their ability to show interareal coherence and phase synchronization are important questions that need to be addressed.
In this thesis, we propose theoretical models of noisy oscillations in the gamma and beta bands with the same properties as those observed in in \textit{vivo}. Such models should exhibit dynamic and statistical features of the data and support dynamic phase synchronization. We consider networks composed of excitatory and inhibitory populations.
Noise is the result of the finite size effect of the system or the synaptic inputs. The associated dynamics of the Local Field Potentials (LFPs) are modeled as linear equations, sustained by additive and/or multiplicative noises. Such oscillatory LFPs are also known as noise-induced or quasi-cycles oscillations.
The LFPs are better described using the envelope-phase representation. In this framework, a burst is defined as an epoch during which the envelope magnitude exceeds a given threshold. Fortunately, to the lowest order, the envelope dynamics are uncoupled from the phase dynamics for both additive and multiplicative noises. For additive noise, we derive the mean burst duration via a mean first passage time approach and uncover an optimal range of parameters for healthy rhythms. Multiplicative noise is shown theoretically to further synchronize neural activities and better explain pathologies with an excess of neural synchronization. We used the stochastic averaging method (SAM) as a theoretical tool to derive the envelope-phase equations. The SAM is extended to extract the envelope-phase equations of two coupled brain areas. The goal is to tackle the question of phase synchronization of noise-induced oscillations with application to interareal brain communication. The results show that noise and propagation delay are essential ingredients for dynamic phase synchronization of quasi-cycles. This suggests that the noisy oscillations recorded in \textit{vivo} and modeled here as quasi-cycles are good candidates for such neural communication. We further extend the use of the SAM to describe several coupled networks subject to white and colored noises across the Hopf bifurcation ie in both quasi-cycle and limit cycle regimes. This allows the description of multiple brain areas in the envelope-phase framework.
The SAM constitutes an appropriate and flexible theoretical tool to describe a large class of stochastic oscillatory phenomena through the envelope-phase framework.
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Using Phase-Field Modeling With Adaptive Mesh Refinement To Study Elasto-Plastic Effects In Phase TransformationsGreenwood, Michael 11 1900 (has links)
<p> This thesis details work done in the development of the phase field model which
allows simulation of elasticity with diffuse interfaces and the extension of a thin
interface analysis developed by previous authors to study non-dilute ideal alloys.
These models are coupled with a new finite difference adaptive mesh algorithm to
efficiently simulate a variety of physical systems. The finite difference adaptive
mesh algorithm is shown to be at worse 4-5 times faster than an equivalent finite element
method on a per node basis. In addition to this increase in speed for explicit
solvers in the code, an iterative solver used to compute elastic fields is found to
converge in O(N) time for a dynamically growing precipitate, where N is the number
of nodes on the adaptive mesh. A previous phase field formulation is extended
such as to make possible the study of non-ideal binary alloys with complex phase
diagrams. A phase field model is also derived for a free energy that incorporates an
elastic free energy and is used to investigate the competitive development of solid
state structures in which the kinetic transfer rate of atoms from the parent phase
to the precipitate phase is large. This results in the growth of solid state dendrites.
The morphological effects of competing surface anisotropy and anisotropy in the
elastic modulus tensor is analyzed. It is shown that the transition from surfaceenergy
driven dendrites to elastically driven dendrites depends on the magnitudes
of the surface energy anisotropy coefficient (E4 ) and the anisotropy of the elastic
tensor (β) as well as on the super saturation of the particle and therefore to a specific
Mullins-Sekerka onset radius. The transition point of this competitive process
is predicted from these three controlling parameters. </p> / Thesis / Doctor of Philosophy (PhD)
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STUDY OF PHASE TRANSITION AND MAGNNETOCALORIC EFFECT FOR THE SYSTEM Ni-Mn-In-BiOli, Abhiyan 01 December 2023 (has links) (PDF)
AN ABSTRACT OF THE THESIS OFABHIYAN OLI, for the Master of Science degree in Applied Physics, presented on August 10, 2023 at Southern Illinois University Carbondale. TITLE: STUDY OF PHASE TRANSITION AND MAGNNETOCALORIC EFFECT FOR THE SYSTEM Ni-Mn-In-Bi MAJOR PROFESSOR: Dr. Saikat Talapatra We experimentally investigate the Heusler alloys Ni50Mn35In12Bi3 and Ni47Mn35In15Bi3 on their different magnetic properties: structural, magnetic, magnetocaloric and magnetotransport properties by using room-temperature X-ray diffraction (XRD), and magnetization measurements in the temperature interval of 10 -380K and field up to 5T. This alloys shows both high temperature austenite phase (AP) and martensite phase (MP). The alloy Ni47Bi3Mn35In15 crystallize in primitive Cubic structure with space group Fm-3m and Ni50Mn35In12Bi3 with the crystal structure of Tetragonal L21 type with space group I4-3m. Alloy Ni47Bi3Mn35In15 show two phase transition FOPT from Ferrimagnetic/AFM to FM and SOPT from FM to PM towards higher temperature and its result will be discussed here mainly. The martensitic transition (TM) takes place around 200K and Curie temperature (TC) 313K in presence of 100Oe field. The saturation magnetization (Ms) at 10K was found to be increasing at lower field and stabilized at higher field indicating ferromagnetic behavior. The Ni47Bi3Mn35In15 shows high magnetocaloric effects (ΔSM = -47.36 Jkg-1K-1) and Relative Cooling Power (RCP = 222.12 J/Kg) in the vicinity of its Curie temperature (TC =313K). Magnetotransport measurement is done by using a standard four-probe method from 10-380 K temperature in presence of zero field and 50 kOe field.
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