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11	The effects of solutes on the phase behaviour of phospholipid membranes. Lenné, Thomas, thomas.lenne@anu.edu.au January 2008 (has links) Severe dehydration is lethal for most biological species, however there are a number of organisms which have evolved mechanisms to avoid damage during dehydration. One of these mechanisms is the accumulation of small solutes (e.g. sugars), which have been shown to preserve membranes by inhibiting deleterious phase changes at low hydration. Specifically, sugars reduce the gel to fluid phase transition temperatures of model lipid/water mixtures. However, there is debate about the precise mechanism, the resolution of which hinges on the location of the sugars. An experimental investigation into the effects of small solutes on the phase behaviour of phospholipid membranes is presented in order help identify the mechanisms by which solutes facilitate desiccation tolerance. Differential Scanning Calorimetry (DSC) was used to determine the first comprehensive phase diagram for the synthetic phospholipid DPPC over a wide range of hydration and solute molar ratios between 0.1 and 1.0 sugars per lipid. Over the same range of hydrations and solute concentrations Small Angle X-Ray Scattering (SAXS) was used to measure the structural parameters of the membrane bilayers necessary to determine both the phase of the membrane lipids and the location of the solutes. SAXS was also used to conduct the first comprehensive study of the effect of solutes on the kinetics of the fluid - gel transition of DPPC over a range of both hydration and solute concentration. Finally, contrast variation Small Angle Neutron Scattering (SANS) was used to quantitatively determine the location of the solutes. Data from these complimentary techniques are presented which show a monotonic relationship between both transition temperature and repeat spacing with respect to solute concentration. This relationship exists between solute:lipid molar ratios between 0.1 to approximately 0.5, after which higher concentrations of solute are shown to have no further effect on either the bilayer repeat spacing or transition temperature. It is proposed that the exclusion of small solutes into sugar/water micro-phases external to the bilayer can account for this behaviour. A theoretical model previously used to describe membrane phase behaviour at low hydrations is modified to account for the presence of solutes between membrane bilayers. This model is shown to be in quantitative agreement with the experimental data up until approximately 0.5 sucrose molecules per lipid, the point of solute exclusion. Once exclusion is taken into account, the model is quantitative over the whole range of sugar concentrations. Membranes desiccation freezing phospholipids sugars phase transitions
12	Monte Carlo Group - Atomic Physics Department Rossen Radev 06 June 1997 (has links) No description available.
13	Influence des transformations de phase de la zircone sur le comportement thermomécanique de réfractaires à très haute teneur en zircone / Influence of zirconia phase transitions on the thermo-mechanical behavior of high zirconia refractories Gouraud, Fanny 10 November 2016 (has links) Ces travaux de thèse, réalisés dans le cadre du programme de recherche ASZTech, portent sur l’étude de deux réfractaires électrofondus : un matériau Alumine-Zircone-Silice (AZS) et un produit à Très Haute Teneur en Zircone (THTZ), destinés à l’industrie verrière. La zircone étant non stabilisée, ces réfractaires subissent donc, lors de l’étape de recuisson (refroidissement), la transformation quadratique (Q) à monoclinique (M) de la zircone qui, de par sa forte expansion volumique, est une source d’endommagement. L’objectif de cette étude a consisté à caractériser, au cours de traitements thermiques représentatifs, le comportement thermomécanique de ces matériaux et à établir des corrélations avec les évolutions microstructurales rencontrées. En étudiant leurs comportements sous sollicitations thermiques par des techniques acoustiques, l’impact de la transformation Q-M de la zircone sur le développement de l’endommagement a été mis en évidence. En s’intéressant particulièrement au comportement mécanique au passage de cette transformation, la présence d’un phénomène de plasticité de transformation (TRIP) a été confirmée. Outre le phénomène de TRIP qui participe à la relaxation des contraintes au passage de la transformation de phase, un phénomène d’endommagement diffus, offrant également une capacité d’accommodation, a été identifié pour le matériau THTZ. Au final, ces données ont permis d’améliorer le modèle de simulation numérique décrivant l’étape de recuisson de blocs industriels. En outre, la robustesse de ce modèle pourra maintenant être validée par confrontation à des mesures expérimentales de contraintes résiduelles réalisées au cours de cette étude. / This thesis, carried out under the research program ASZTech, focuses on the study of two fused cast refractories: an Alumina-Zirconia-Silica (AZS) product and a product with very High content of Zirconia (HZ), used in glass industry. These refractories containing non-stabilized zirconia are therefore subjected, during the annealing step (cooling), to the tetragonal (T) to the monoclinic (M) phase transition of zirconia associated with a very high volumetric expansion which is a source of stresses. This study aims at characterizing, during representative thermal treatments, the thermo-mechanical behavior of these materials, in correlation with the detected microstructural evolutions. Thanks to the analysis of their behavior under thermal stresses by acoustic techniques, the effect of the T-M transition of zirconia on the development of damage has been highlighted. In particular, the occurrence of a TRansformation Induced Plasticity (TRIP) phenomenon during the zirconia phase transition has been identified and characterized thanks to cooling tests under mechanical stress. In addition to this TRIP phenomenon which allows to relax the mechanical stresses induced during the phase transition, a diffuse damage phenomenon has been also identified for HZ product. Eventually, these data have led to an improvement of the numerical model which simulates the annealing step of industrial blocks. Moreover, the reliability of this model will be now checked by comparison to experimental measurements of residual stresses performed during this study. Transformations de phase Phase transitions 620.189 35
14	PHASE TRANSITIONS AND MAGNETOCALORIC EFFECT IN MnNiGe<sub>1−x</sub>Al<sub>x</sub>, Ni<sub>50</sub>Mn<sub>35</sub>(In<sub>1−x</sub>Cr<sub>x</sub>)<sub>15</sub> AND (Mn<sub>1−x</sub>Cr<sub>x</sub>)NiGe<sub>1.05</sub> Quetz, Abdiel 01 August 2014 (has links) The magnetocaloric and thermomagnetic properties of the MnNiGe1-xAlx, Ni50Mn35(In1−xCrx)15 and (Mn1−xCrx)NiGe1.05 systems have been studied by x-ray diffraction, differential scanning calorimetry (DSC), and magnetization measurements. Partial substitution of Al for Ge in MnNiGe1−xAlx results in a ﬁrst-order magnetostructural transition (MST) from a hexagonal ferromagnetic to an orthorhombic antiferromagnetic phase at 186 K (for x = 0.09). A large magnetic entropy change of ∆SM = -17.6 J/kg K for ∆H = 5 T was observed in the vicinity of TM = 186 K for x = 0.09. This value is comparable to those of well-known giant magnetocaloric materials, such as Gd5Si2Ge2, MnFeP0.45As0.55, and Ni50Mn37Sn13 [1]. The values of the latent heat (L = 6.6 J/g) and corresponding total entropy changes (∆ST = 35 J/kg K) have been evaluated for the MST using DSC measurements. Large negative values of ∆SM of -5.8 and -4.8 J/kg K for ∆H = 5 T in the vicinity of TC were observed for x = 0.09 and 0.085, respectively. Partial substitution of Cr for Mn in(Mn1−xCrx)NiGe1.05 results in a MST from a hexagonal paramagnetic to an orthorhombic paramagnetic phase near TM ~ 380 K (for x = 0.07). Partial substitution of Cr for In in Ni50Mn35(In1−xCrx)15 shifts the magnetostructural transition to a higher temperature (TM ~ 450 K) for x = 0.1. Large magnetic entropy changes of ∆SM = -12 (J/kgK) and ∆S = -11 (J/kgK), both for a magnetic field change of 5 T, were observed in the vicinity of TM for (Mn1−xCrx)NiGe1.05 and Ni50Mn35(In1−xCrx)15, respectively. The concentration-dependent (T-x) phase diagram of transition temperatures (magnetic, structural, and magnetostructural) has been generated using magnetic, XRD, and DSC data. The role of magnetic and structural changes on transition temperatures are discussed. Heusler alloys MAGNETOCALORIC EFFECT PHASE TRANSITIONS
15	Active magnetic regenerators: performance in the vicinity of para-ferromagnetic second order phase transitions Rowe, Andrew Michael 02 November 2018 (has links) A technology that has the potential to liquefy hydrogen and natural gas efficiently is an Active Magnetic Regenerative Liquefier (AMRL). An AMRL exploits the magnetocaloric effect displayed by magnetic materials whereby a reversible temperature change is induced when the material is exposed to a magnetic field. This effect can be used to produce cooling. By using the magnetic materials in a regenerator as the heat storage medium and as the means of work input, one creates an Active Magnetic Regenerator (AMR). Because the adiabatic temperature change is a strong function of temperature for most materials, to span a large temperature range such as that needed to liquefy hydrogen, a number of different materials may be needed to make up one or more regenerators. Single material AMRs have been proven, but layering with more than one material has not. This thesis is a study of AMRs using magnetic refrigerants displaying second-order paramagnetic to ferromagnetic ordering. An analysis of AMR thermodynamics is performed and results are used to define properties of ideal magnetic refrigerants. The design and construction of a novel test apparatus consisting of a conduction-cooled superconducting solenoid and a reciprocating AMR test apparatus are described. A numerical model is developed describing the energy transport in an AMR. Experiments using Gd are performed and results are used to validate the model. A strong relationship between flow phasing is discovered and possible reasons for this phenomenon are discussed. Simulations of AMRs operating in unconventional modes such as at temperatures greater than the transition temperature reveal new insights into AMR behaviour. Simulations of two-material layered AMRs suggest the existence of a jump phenomenon occurring regarding the temperature span. These results are used to explain the experimental results reported by other researchers for a two-material AMR. / Graduate Refrigerants Superconducting magnets Regenerators Phase transitions
16	Phase transitions and thermodynamics of quasione- dimensional quantum rotor and spin systems Sandoildo Freitas Tenório, Antônio 31 January 2009 (has links) Made available in DSpace on 2014-06-12T18:06:41Z (GMT). No. of bitstreams: 2 arquivo945_1.pdf: 1972275 bytes, checksum: faf69ec63b01c315fa88949dbaf22651 (MD5) license.txt: 1748 bytes, checksum: 8a4605be74aa9ea9d79846c1fba20a33 (MD5) Previous issue date: 2009 / Sandoildo Freitas Tenório, Antônio; Domingues Coutinho Filho, Maurício. Phase transitions and thermodynamics of quasione- dimensional quantum rotor and spin systems. 2009. Tese (Doutorado). Programa de Pós-Graduação em Física, Universidade Federal de Pernambuco, Recife, 2009. Quantum rotors Spins Magnetism Phase transitions
17	An optimized force field for crystalline phases of resorcinol. Chatchawalsaisin, Jittima, Kendrick, John, Tuble, S.C., Anwar, Jamshed 10 March 2008 (has links) No / The two known crystalline phases of resorcinol and their phase transitions are of considerable interest. The crystals exhibit pyro- and piezo-electricity and, remarkably, the higher temperature phase is the denser phase. Furthermore, crystals of the phase, by virtue of having a polar axis, have played a crucial role in investigating fundamental issues of crystal growth. We report an optimized force field for the molecular simulation of crystalline phases of resorcinol. The hydroxyl groups of the resorcinol molecule have a torsional degree of freedom and the molecule adopts a different conformation in each of the two phases of resorcinol. The torsional barrier, therefore, was considered to be critical and has been characterized using ab initio methods. Although the atomic partial charges showed some dependence on the molecular conformation, a single set of partial charges was found to be sufficient in describing the electrostatic potential for all conformations. The parameters for the van der Waals interactions were optimized using sensitivity analysis. The proposed force field reproduces not only the static structures but also the stability of the crystalline phases in extended molecular dynamics simulations. Resorcinol Force field Phase transitions Crystalline phases
18	AN EXPERIMENTAL STUDY OF MAGNETIC AND STRUCTURAL PHASE TRANSITIONS AND ASSOCIATED PHENOMENA IN SELECTED NI-MN-DERIVATIVE HEUSLER ALLOYS Brock, Jeffrey Adams 31 July 2017 (has links) No description available. Physics Heusler alloys magnetic phase transitions structural phase transitions X-ray diffraction magnetocaloric effects magnetism
19	Crossovers and phase transitions in Bose-Fermi mixtures Kimene Kaya, Boniface Dimitri Christel 04 1900 (has links) Thesis (MSc)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: We present a theoretical approach that allows for the description of trapped Bose-Fermi mixtures with a tunable interspecies interaction in the vicinity of a Feshbach resonance magnetic field.The many-body physics of the system is treated at equilibrium using the well-established mean-field and local density approximations. This reduces the physics locally to that of a homogeneous system. We observe a rich local phase structure exhibiting both first and second order phase transitions between the normal and BEC phases. We also consider the global properties of the mixture at a fixed number of particles and investigate how the density profiles and the populations of the various particle species depend on the detuning and trap profile. / AFRIKAANSE OPSOMMING: Ons beskou ’n teoretiese beskrywing van gevangde Bose-Fermi mengsels met ’n verstelbare interspesie wisselwerking in die teenwoordigheid van ’n magneties-geïnduseerde Feshbach resonansie. Die veeldeeltjiefisika van die sisteem word by ekwilibrium binne die welbekende gemiddelde-veld en lokale-digtheid benaderings hanteer. Sodoende word die fisika lokaal tot die van ’n homogene sisteem gereduseer. Ons neem ’n ryk fase-struktuur waar met beide eerste- en tweede-orde fase-oorgange tussen die normale en BEK fases. Ons beskou ook die globale eienskappe van die mengsel by ’n vaste totale aantal deeltjies en ondersoek hoe die digtheidsprofiele en deeltjiegetalle van die afstemming en die profiel van die val afhang. Quantum phase transitions Bosons Fermions UCTD Dissertations -- Physics Theses -- Physics
20	Transições de fase em KCN. / Phase transitions in KCN Castro Neto, Jarbas Caiado de 11 January 1977 (has links) As transformações de fase em cristais de cianeto de potássio (KCN) a 168&#176K e 83&#176K e suas ligas com KC1, foram estudadas através da absorção ótica no infravermelho do íon de impureza OCN&#8254 e dos íons CN&#8254 da rede. Por aplicação de tensão uniaxial foram obtidos pela primeira vez cristais únicos, da KCN-KCl, nas duas fases de mais baixa temperatura. A absorção ótica dicróica devida à vibração interna do íon CN&#8254 nesses monocristais, permitiu a determinação de seu arranjo estrutural direcional, de forma inequívoca, como também correções a modelo recentemente proposto para esse arranjamento, baseado em experiências com cristais de muitos domínios. O estudo do modo de flexão da impureza OCN&#8254 permitiu o seguimento das transformações de fase anteriormente observadas por meio de medidas de calor específico em cristais puros de KCN. A evolução dessas transformações em função da concentração do íon esférico de Cl&#8254 em substituição do íon elipsoidal CN&#8254 foi estudada numa larga faixa de concentrações. Um modelo para a fase de mais baixa temperatura e proposto com arranjo antiferroelétrico dos dipolos CN&#8254 e com distinção na sub-rede dos íons positivos. Em vista do modelo proposto, duas alternativas para as duas transições de fase poderiam ocorrer. Na transição de mais alta temperatura (168&#176K), ocorreria o alinhamento ferroelástico e antiferroelétrico, dos dipolos CN&#8254, e a transição de mais baixa temperatura (83&#176K) corresponderia somente à distorção na sub-rede dos íons positivos (e possivelmente dos negativos). Na outra possibilidade, a 168&#176K ocorreria somente um arranjo ferroelástico e a 83&#176K o arranjo antiferroelétrico e a distorção na rede. / The phase transformations in potassium cyanide crystals (KCN) at 168&#176K and 83&#176K and KCN-KCl mixed crystals, were studied through the I-r optical absorption of the CN&#8254 stretching mode and the OCN&#8254 impurity bending mode and Fermi resonance application of uniaxial stress in KCN-KCl mixed crystals gives, by the first time, oriented single crystals in the lower temperature phases. The dichroic optical absorption of the CN&#8254 stretching mode in these oriented single crystals allowed the explicit determination of the structural arrangement of the C\'N POT.-\' dipole. The results of our measurements are not in agreement recently proposed by Julian and Luty based on electrical experiments with polidomain crystals. The bending mode and Fermi resonances of the substitutional OC\'N POT.\'impurity give further information in agreement with previous specif heat measurements. The evolution of the phase transformation was studied as a function of the spheroidal Cl&#8254 íon concentration replacing the CN&#8254 ellipsoidal íon. A model for the lower temperature phase is proposed with antiferroelectric ordering of the CN&#8254 dipoles and additional distortion on positive and negative sub lattices. As a consequence of the proposed model the phase transitions, may occur in two different ways that can not be distinguished with the used techniques. In the first possibility during the higher temperature phase transition (168&#176K) would occur the ferroelastic and antiferroelectric alignement of the CN&#8254 dipoles and the lower phase transition (83&#176K) would be due to a lattice distortion as necessary to explain our results. In the other possibility the 168&#176K phase transition would occur only the ferroelastic transition;and at 83&#176K the antiferroelectric ordering of the CN&#8254 ions and the lattice distortion would occur Cristais iônicos Ionic crystas KCN KCN Phase transitions Transições de fase

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