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1. A conjugate for the Bargmann representation

Author

Ribeiro, A. D., Parisio, F., and de Aguiar, M. A. M.

Subjects
Quantum Physics
Abstract

In the Bargmann representation of quantum mechanics, physical states are mapped into entire functions of a complex variable z*, whereas the creation and annihilation operators $\hat{a}^\dagger$ and $\hat{a}$ play the role of multiplication and differentiation with respect to z*, respectively. In this paper we propose an alternative representation of quantum states, conjugate to the Bargmann representation, where the roles of $\hat{a}^\dagger$ and $\hat{a}$ are reversed, much like the roles of the position and momentum operators in their respective representations. We derive expressions for the inner product that maintain the usual notion of distance between states in the Hilbert space. Applications to simple systems and to the calculation of semiclassical propagators are presented., Comment: 15 pages

Published
2008
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3. The Saffman-Taylor problem on a sphere

Author

Parisio, F., Moraes, F., Miranda, Jose A., and Widom, Michael

Subjects
Condensed Matter - Soft Condensed Matter, Mathematical Physics, Nonlinear Sciences - Pattern Formation and Solitons, Physics - Fluid Dynamics
Abstract

The Saffman-Taylor problem addresses the morphological instability of an interface separating two immiscible, viscous fluids when they move in a narrow gap between two flat parallel plates (Hele-Shaw cell). In this work, we extend the classic Saffman-Taylor situation, by considering the flow between two curved, closely spaced, concentric spheres (spherical Hele-Shaw cell). We derive the mode-coupling differential equation for the interface perturbation amplitudes and study both linear and nonlinear flow regimes. The effect of the spherical cell (positive) spatial curvature on the shape of the interfacial patterns is investigated. We show that stability properties of the fluid-fluid interface are sensitive to the curvature of the surface. In particular, it is found that positive spatial curvature inhibits finger tip-splitting. Hele-Shaw flow on weakly negative, curved surfaces is briefly discussed., Comment: 26 pages, 4 figures, RevTex, accepted for publication in Phys. Rev. E

Published
2000
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7. Integrated Stress Field Estimation and Implications for Enhanced Geothermal System Development in Acoculco, Mexico

Author

Kruszewski M.[1, Hofmann H.[3], Alvarez F.G.[5], Bianco C.[4], Haro A.J.[5], Garduño V.H.[5], Liotta D.[4, Trumpy E.[6], Brogi A.[4, Wheeler W.[7], Bastesen E.[7], Parisio F.[8], Saengeri E.H.[1, and Publica

Subjects
Renewable Energy, Sustainability and the Environment, Cauchy stress tensor, Well logging, 0211 other engineering and technologies, Geology, 02 engineering and technology, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, Overburden pressure, Enhanced geothermal system, 01 natural sciences, Stress field, Geothermal exploration, 021108 energy, in-situ stress estimation, hydraulic stimulation, Enhanced Geothermal Systems (EGS), Acoculco geothermal system, geothermal reservoir geomechanics, Pore pressure gradient, Petrology, Geothermal gradient, 0105 earth and related environmental sciences
Abstract

Data gathered from two geothermal exploration wells in the Acoculco caldera, within the Trans-Mexican Volcanic Belt, indicated that temperature is high enough for economic utilization, but permeability is insufficient. Hence, heat exploitation at this location may only be possible by Enhanced Geothermal System (EGS) technologies. To evaluate the potential for EGS development, a wide range of exploration work has been carried out in the framework of the international research project GEMex. In this manuscript, we present best estimates of the in-situ stress field conditions at the site - an important, yet highly uncertain, parameter for stimulation planning. The study is based on geological data, drilling parameters, geophysical logging, laboratory measurements on collected rock samples, and statistical analyses. The in-situ stress regime of the Acoculco geothermal area can be described as transtensional with a maximum horizontal stress striking in the NE-SW direction, a pore pressure gradient of 8.73 MPa·km-1, a minimum horizontal stress gradient of 22.8 ± 3.3 MPa·km-1, a vertical stress gradient of 24.3 ± 1.5 MPa·km-1, and a maximum horizontal stress gradient of 42.9 ± 28.5 MPa·km-1. Based on the predicted stress tensor, we estimate the maximum pressure required to enhance the rock permeability and discuss the potential EGS development options for the Acoculco geothermal area.

Published
2021
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8. Creating cloud‑fracture network by flow‑induced microfracturing in superhot geothermal environments

Author

Goto, R., Watanabe, N., Sakaguchi, K., Miura, T., Chen, Y., Ishibashi, T., Pramudyo, E., Parisio, F., Yoshioka, Keita, Nakamura, K., Komai, T., Tsuchiya, N., Goto, R., Watanabe, N., Sakaguchi, K., Miura, T., Chen, Y., Ishibashi, T., Pramudyo, E., Parisio, F., Yoshioka, Keita, Nakamura, K., Komai, T., and Tsuchiya, N.

Abstract

Superhot geothermal environments with temperatures of approximately 400–500 °C at depths of approximately 2–4 km are attracting attention as new kind of geothermal resource. In order to effectively exploit the superhot geothermal resource through the creation of enhanced geothermal systems (superhot EGSs), hydraulic fracturing is a promising technique. Laboratory-scale hydraulic fracturing experiments of granite have recently demonstrated the formation of a dense network of permeable fractures throughout the entire rock body, referred to as a cloud-fracture network, at or near the supercritical temperature for water. Although the process has been presumed to involve continuous infiltration of low-viscosity water into preexisting microfractures followed by creation and merger of the subsequent fractures, a plausible criterion for cloud-fracture network formation is yet to be clarified. The applicability of the Griffith failure criterion is supported by hydraulic fracturing experiments with acoustic emission measurements of granite at 400 °C under true triaxial stress and at 450 °C under conventional triaxial stress. The present study provides, for the first time, a theoretical basis required to establish the procedure for hydraulic fracturing in the superhot EGS.

Published
2021

9. A laboratory study of hydraulic fracturing at the brittle-ductile transition

Author

Parisio, F., Yoshioka, Keita, Sakaguchi, K., Goto, R., Miura, T., Pramudyo, E., Ishibashi, T., Watanabe, N., Parisio, F., Yoshioka, Keita, Sakaguchi, K., Goto, R., Miura, T., Pramudyo, E., Ishibashi, T., and Watanabe, N.

Abstract

Developing high-enthalpy geothermal systems requires a sufficiently permeable formation to extract energy through fluid circulation. Injection experiments above water’s critical point have shown that fluid flow can generate a network of highly conductive tensile cracks. However, what remains unclear is the role played by fluid and solid rheology on the formation of a dense crack network. The decrease of fluid viscosity with temperature and the thermally activated visco-plasticity in rock are expected to change the deformation mechanisms and could prevent the formation of fractures. To isolate the solid rheological effects from the fluid ones and the associated poromechanics, we devise a hydro-fracture experimental program in a non-porous material, polymethyl methacrylate (PMMA). In the brittle regime, we observe rotating cracks and complex fracture patterns if a non-uniform stress distribution is introduced in the samples. We observe an increase of ductility with temperature, hampering the propagation of hydraulic fractures close to the glass transition temperature of PMMA, which acts as a limit for brittle fracture propagation. Above the glass transition temperature, acoustic emission energy drops of several orders of magnitude. Our findings provide a helpful guidance for future studies of hydro-fracturing of supercritical geothermal systems.

Published
2021

10. Wellbore stability in high-temperature granite under true triaxial stress

Author

Goto, R., Sakaguchi, K., Parisio, F., Yoshioka, Keita, Pramudyo, E., Watanabe, N., Goto, R., Sakaguchi, K., Parisio, F., Yoshioka, Keita, Pramudyo, E., and Watanabe, N.

Abstract

Supercritical/superhot geothermal success depends on successful drilling. However, wellbore stability in supercritical environments has not been investigated because imposing sufficient stress on high-temperature granite with true triaxial loading is difficult. We conducted wellbore failure experiments on 200–450 °C granite under true triaxial stress, including deformation and acoustic emission measurements, and post-experiment thin section observations. Wellbore failure initiated at stress states consistent with existing brittle failure criterion at the studied temperatures. Using breakout geometry for in situ stress estimation may be difficult as shear failure propagation is suppressed at high temperatures; however, boreholes may be inherently stable in high-temperature environments.

Published
2021

11. Modeling fluid reinjection into an enhanced geothermal system

Author

Parisio, F., Yoshioka, Keita, Parisio, F., and Yoshioka, Keita

Abstract

The manuscript analyzes the stimulation for an Enhanced Geothermal System development in Acoculco, Mexico. Using an analytical penny‐shape hydraulic fracture model covering different propagation regimes, we computed the final fracture length and width by varying fluid properties with temperature. Our analysis indicates that for the given scenario, the fluid viscosity plays a minor role and instead flow rate and time of the stimulation are the controlling variables. We computed the fracture re‐opening as a consequence of water re‐injection in the second stage of the stimulation through numerical computations based on the enriched discontinuity method. The computation shows that a single isolated fracture will not provide sufficient permeability, as the continuous injection will quickly fill and pressurize the crack. We demonstrate that the fracture needs to be connected to a permeable network to avoid excessive pressurization and achieve a commercially exploitable reservoir for Enhanced Geothermal System.

Published
2020

12. Coupled Thermo-Hydro-Mechanical Simulations of A Supercritical Geothermal System

Author

Parisio, F., Vilarrasa, Víctor, Wang, W., Kolditz, O., Nagel, T., Vilarrasa, Víctor, and Vilarrasa, Víctor [0000-0003-1169-4469]

Abstract

Understanding coupled processes is essential to properly assess the performance and risks of supercritical geothermal systems. These systems are found in especially hot reservoirs, at the deep root of volcanic areas, in which water is encountered in supercritical conditions because the pressure (p) and temperature (T) are above their critical values, i.e., p > 22.06 MPa and T > 373.95 ºC. Thus, supercritical geothermal systems experience strong induced deformations and stress redistributions induced by pore pressure variations and cooling during cold water reinjection performed to balance fluid depletion. While pressure changes are balanced in the injection and production well doublet, strong cooling occurs asymmetrically around the injection well, which significantly contracts the rock and causes a thermal stress reduction. The effective stress changes may lead to fault reactivation and induced seismicity. In order to investigate the potential of seismicity induced by cold water injection in deep supercritical geothermal reservoirs, we have performed coupled thermo-hydro-mechanical (THM) simulations of a doublet system with a steeply dipping conductive fault between the two wells. The fault is modeled as a continuum with higher permeability and compliance than the surrounding rock. We have performed THM finite element analyses with the object-oriented, C++ based and open-source finite element solver OpenGeoSys. We have implemented advanced features such as: i) porosity-dependent permeability, ii) full poro-mechanical coupling and iii) IAPWS-97 equations of state for water present in various phases. The porosity-dependent permeability evolves along with porosity changes, which in turn are a function of the changes of temperature, pore pressure and stress. The injected cold water absorbs heat from the rock mass on its way toward the production well, crossing the fault. Under conditions relevant for supercritical reservoirs, deformation is mainly controlled the cooling front and is less affected by pressure changes, which reach a pseudo-steady state shortly after the beginning of fluid circulation. Fluid velocity is highest in the fault, whereas major mechanical effects are a consequence of thermal deformation. We compare cold water re-injection with a case of isothermal injection, showing that the rate of seismicity production strongly decreases when thermal effects are neglected. This difference highlights the importance of controlling injection conditions not only in terms of pore pressure, but temperature as well. Possible risk mitigation strategies could include limiting cold-water injection by either increasing inflow temperature or by decreasing the flow rate.

Published
2019

17. Coupled Thermo-Hydro-Mechanical Simulations of A Supercritical Geothermal System

Author

Vilarrasa, Víctor [0000-0003-1169-4469], Parisio, F., Vilarrasa, Víctor, Wang, W., Kolditz, O., Nagel, T., Vilarrasa, Víctor [0000-0003-1169-4469], Parisio, F., Vilarrasa, Víctor, Wang, W., Kolditz, O., and Nagel, T.

Abstract

Understanding coupled processes is essential to properly assess the performance and risks of supercritical geothermal systems. These systems are found in especially hot reservoirs, at the deep root of volcanic areas, in which water is encountered in supercritical conditions because the pressure (p) and temperature (T) are above their critical values, i.e., p > 22.06 MPa and T > 373.95 ºC. Thus, supercritical geothermal systems experience strong induced deformations and stress redistributions induced by pore pressure variations and cooling during cold water reinjection performed to balance fluid depletion. While pressure changes are balanced in the injection and production well doublet, strong cooling occurs asymmetrically around the injection well, which significantly contracts the rock and causes a thermal stress reduction. The effective stress changes may lead to fault reactivation and induced seismicity. In order to investigate the potential of seismicity induced by cold water injection in deep supercritical geothermal reservoirs, we have performed coupled thermo-hydro-mechanical (THM) simulations of a doublet system with a steeply dipping conductive fault between the two wells. The fault is modeled as a continuum with higher permeability and compliance than the surrounding rock. We have performed THM finite element analyses with the object-oriented, C++ based and open-source finite element solver OpenGeoSys. We have implemented advanced features such as: i) porosity-dependent permeability, ii) full poro-mechanical coupling and iii) IAPWS-97 equations of state for water present in various phases. The porosity-dependent permeability evolves along with porosity changes, which in turn are a function of the changes of temperature, pore pressure and stress. The injected cold water absorbs heat from the rock mass on its way toward the production well, crossing the fault. Under conditions relevant for supercritical reservoirs, deformation is mainly controlled the coolin

Published
2019

18. Fault stability during re-injection in deep geothermal systems

Author

Vilarrasa, Víctor [0000-0003-1169-4469], Parisio, F., Vilarrasa, Víctor, Wang, W., Kolditz, O., Nagitz, T., Vilarrasa, Víctor [0000-0003-1169-4469], Parisio, F., Vilarrasa, Víctor, Wang, W., Kolditz, O., and Nagitz, T.

Published
2019

26. Effect of circulation and discussion of cervical smears on agreement between laboratories

Author

Ronco, G, Montanari, G., Confortini, M., Parisio, F., Berardengo, E., Delpiano, A.M., Arnaud, S., Campione, D., Baldini, D., Poll, P., Lynge, Elsebeth, Mancini, B., Segnan, N., Ronco, G, Montanari, G., Confortini, M., Parisio, F., Berardengo, E., Delpiano, A.M., Arnaud, S., Campione, D., Baldini, D., Poll, P., Lynge, Elsebeth, Mancini, B., and Segnan, N.

Published
2003

30. Geomechanical Behavior of Shales

Author

• Laloui, L., Ferrari, A., Favero, V., Parisio, F., Minardi, A., • Laloui, L., Ferrari, A., Favero, V., Parisio, F., and Minardi, A.

Subjects
geomechanics, multiphysical behaviour, Geomechanical, damage, Shales, shale
Abstract

The paper presents the recent advances and their relevance in the study of the geomechanical behavior of shales considering both experimental and modelling aspects. Shales are involved in several energy-related engineering applications where complex multiphysical conditions are encountered. Partial saturation, non-isothermal conditions, plasticity and damage mechanisms may have a fundamental impact on their geomechanical behavior. The relevance of these aspects for shales is presented in the paper both from advance experimental and modeling point of view.

31. A laboratory study of hydraulic fracturing at the brittle-ductile transition.

Author

Parisio F, Yoshioka K, Sakaguchi K, Goto R, Miura T, Pramudyo E, Ishibashi T, and Watanabe N

Abstract

Developing high-enthalpy geothermal systems requires a sufficiently permeable formation to extract energy through fluid circulation. Injection experiments above water's critical point have shown that fluid flow can generate a network of highly conductive tensile cracks. However, what remains unclear is the role played by fluid and solid rheology on the formation of a dense crack network. The decrease of fluid viscosity with temperature and the thermally activated visco-plasticity in rock are expected to change the deformation mechanisms and could prevent the formation of fractures. To isolate the solid rheological effects from the fluid ones and the associated poromechanics, we devise a hydro-fracture experimental program in a non-porous material, polymethyl methacrylate (PMMA). In the brittle regime, we observe rotating cracks and complex fracture patterns if a non-uniform stress distribution is introduced in the samples. We observe an increase of ductility with temperature, hampering the propagation of hydraulic fractures close to the glass transition temperature of PMMA, which acts as a limit for brittle fracture propagation. Above the glass transition temperature, acoustic emission energy drops of several orders of magnitude. Our findings provide a helpful guidance for future studies of hydro-fracturing of supercritical geothermal systems., (© 2021. The Author(s).)

Published
2021
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32. How Equivalent Are Equivalent Porous Media?

Author

Zareidarmiyan A, Parisio F, Makhnenko RY, Salarirad H, and Vilarrasa V

Abstract

Geoenergy and geoengineering applications usually involve fluid injection into and production from fractured media. Accounting for fractures is important because of the strong poromechanical coupling that ties pore pressure changes and deformation. A possible approach to the problem uses equivalent porous media to reduce the computational cost and model complexity instead of explicitly including fractures in the models. We investigate the validity of this simplification by comparing these two approaches. Simulation results show that pore pressure distribution significantly differs between the two approaches even when both are calibrated to predict identical values at the injection and production wells. Additionally, changes in fracture stability are not well captured with the equivalent porous medium. We conclude that explicitly accounting for fractures in numerical models may be necessary under some circumstances to perform reliable coupled thermohydromechanical simulations, which could be used in conjunction with other tools for induced seismicity forecasting., (© 2021. The Authors.)

Published
2021
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33. Analytical Solution to Assess the Induced Seismicity Potential of Faults in Pressurized and Depleted Reservoirs.

Author

Wu H, Vilarrasa V, De Simone S, Saaltink M, and Parisio F

Abstract

Displaced faults crossing the reservoir could significantly increase the induced earthquake frequency in geo-energy projects. Understanding and predicting the stress variation in such cases is essential to minimize the risk of induced seismicity. Here, we adopt the inclusion theory to develop an analytical solution for the stress response to pore pressure variations within the reservoir for both permeable and impermeable faults with offset ranging from zero to the reservoir thickness. By analyzing fault stability changes due to reservoir pressurization/depletion under different scenarios, we find that (1) the induced seismicity potential of impermeable faults is always larger than that of permeable faults under any initial and injection conditions-the maximum size of the fault undergoing failure is 3-5 times larger for impermeable than for permeable faults; (2) stress concentration at the corners results in the occurrence of reversed slip in normal faults with a normal faulting stress regime; (3) while fault offset has no impact on the slip potential for impermeable faults, the slip potential increases with the offset for permeable faults, which indicates that non-displaced permeable faults constitute a safer choice for site selection; (4) an impermeable fault would rupture at a lower deviatoric stress, and at a smaller pressure buildup than a permeable one; and (5) the induced seismicity potential is overestimated and the injectivity underestimated if the stress arching (i.e., the poromechanical coupling) is neglected. This analytical solution is a useful tool for site selection and for supporting decision making during the lifetime of geo-energy projects., (© 2020. The Authors.)

Published
2021
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34. Sinking CO 2 in Supercritical Reservoirs.

Author

Parisio F and Vilarrasa V

Abstract

Geologic carbon storage is required for achieving negative CO 2 emissions to deal with the climate crisis. The classical concept of CO 2 storage consists in injecting CO 2 in geological formations at depths greater than 800 m, where CO 2 becomes a dense fluid, minimizing storage volume. Yet CO 2 has a density lower than the resident brine and tends to float, challenging the widespread deployment of geologic carbon storage. Here, we propose for the first time to store CO 2 in supercritical reservoirs to reduce the buoyancy-driven leakage risk. Supercritical reservoirs are found at drilling-reachable depth in volcanic areas, where high pressure ( p  > 21.8 MPa) and temperature ( T  > 374°C) imply CO 2 is denser than water. We estimate that a CO 2 storage capacity in the range of 50-500 Mt yr -1 could be achieved for every 100 injection wells. Carbon storage in supercritical reservoirs is an appealing alternative to the traditional approach., Competing Interests: There are no conflicts to declare., (©2020. The Authors.)

Published
2020
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35. The risks of long-term re-injection in supercritical geothermal systems.

Author

Parisio F, Vilarrasa V, Wang W, Kolditz O, and Nagel T

Abstract

Supercritical geothermal systems are appealing sources of sustainable and carbon-free energy located in volcanic areas. Recent successes in drilling and exploration have opened new possibilities and spiked interest in this technology. Experimental and numerical studies have also confirmed the feasibility of creating fluid conducting fractures in sedimentary and crystalline rocks at high temperature, paving the road towards Enhanced Supercritical Geothermal Systems. Despite their attractiveness, several important questions regarding safe exploitation remain open. We dedicate this manuscript to the first thermo-hydro-mechanical numerical study of a doublet geothermal system in supercritical conditions. Here we show that thermally-induced stress and strain effects dominate the geomechanical response of supercritical systems compared to pore pressure-related instabilities, and greatly enhance seismicity during cold water re-injection. This finding has important consequences in the design of Supercritical Geothermal Systems.

Published
2019
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36. The brittle-ductile transition in active volcanoes.

Author

Parisio F, Vinciguerra S, Kolditz O, and Nagel T

Abstract

Contrasting deformation mechanisms precede volcanic eruptions and control precursory signals. Density increase and high uplifts consistent with magma intrusion and pressurization are in contrast with dilatant responses and reduced surface uplifts observed before eruptions. We investigate the impact that the rheology of rocks constituting the volcanic edifice has on the deformation mechanisms preceding eruptions. We propose a model for the pressure and temperature dependent brittle-ductile transition through which we build a strength profile of the shallow crust in two idealized volcanic settings (igneous and sedimentary basement). We have performed finite element analyses in coupled thermo-hydro-mechanical conditions to investigate the influence of static diking on the local brittle-ductile transition. Our results show that in active volcanoes: (i) dilatancy is an appropriate indicator for the brittle-ductile transition; (ii) the predicted depth of the brittle-ductile transition agrees with the observed attenuated seismicity; (iii) seismicity associated with diking is likely to be affected by ductile deformation mode caused by the local temperature increase; (iv) if failure occurs within the edifice, it is likely to be brittle-dilatant with strength and stiffness reduction that blocks stress transfers within the volcanic edifice, ultimately damping surface uplifts.

Published
2019
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37. Tensor Field Visualization using Fiber Surfaces of Invariant Space.

Author

Raith F, Blecha C, Nagel T, Parisio F, Kolditz O, Gunther F, Stommel M, and Scheuermann G

Abstract

Scientific visualization developed successful methods for scalar and vector fields. For tensor fields, however, effective, interactive visualizations are still missing despite progress over the last decades. We present a general approach for the generation of separating surfaces in symmetric, second-order, three-dimensional tensor fields. These surfaces are defined as fiber surfaces of the invariant space, i.e. as pre-images of surfaces in the range of a complete set of invariants. This approach leads to a generalization of the fiber surface algorithm by Klacansky et al. [16] to three dimensions in the range. This is due to the fact that the invariant space is three-dimensional for symmetric second-order tensors over a spatial domain. We present an algorithm for surface construction for simplicial grids in the domain and simplicial surfaces in the invariant space. We demonstrate our approach by applying it to stress fields from component design in mechanical engineering.

Published
2018
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38. Critical behaviour in the optimal generation of multipartite entanglement.

Author

Moreno MGM and Parisio F

Abstract

Two systems whose correlations cannot be classically accounted for display the simplest instance of quantum entanglement. Although this two-party association has caused a revolution in the foundations and uses of quantum mechanics, genuine entanglement among several parties unveils a whole new class of phenomena and applications. In this work we suggest a way to prepare Dicke states from a tunable source of bipartite entanglement to investigate foundational issues. The scheme has the following distinctive features: (i) it relies on controlled information loss and unentangled measurements; (ii) irrespective of the source entanglement, whenever a Dicke state is produced, it is ideal; (iii) the optimal entanglement of the bipartite source undergoes a second-order-like transition depending on the parameters of the Dicke state to be produced. These properties lead to asymptotic results on the entanglement between any qubit belonging to a Dicke state and the remaining qubits.

Published
2017
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39. Minimal fragmentation of regular polygonal plates.

Author

Dias L and Parisio F

Subjects
Anisotropy, Probability, Surface Properties, Models, Theoretical
Abstract

Minimal fragmentation models intend to unveil the statistical properties of large ensembles of identical objects, each one segmented in two parts only. Contrary to what happens in the multifragmentation of a single body, minimally fragmented ensembles are often amenable to analytical treatments, while keeping key features of multifragmentation. In this work we present a study on the minimal fragmentation of regular polygonal plates with up to 100 sides. We observe in our model the typical statistical behavior of a solid torn apart by a strong impact, for example. We obtain a robust power law, valid for several decades, in the small mass limit. In the present case we were able to analytically determine the exponent of the cumulative probability distribution to be ½. Less usual, but also reported in a number of experimental and numerical references on impact fragmentation, is the presence of a sharp crossover to a second power-law regime, whose exponent we found to be between ⅓ and 1 depending on the way anisotropy is introduced in the model.

Published
2014
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40. Role of viscous friction in the reverse rotation of a disk.

Author

de Castro P and Parisio F

Subjects
Surface Properties, Viscosity, Friction, Rotation
Abstract

The mechanical response of a circularly driven disk in a dissipative medium is considered. We focus on the role played by viscous friction in the spinning motion of the disk, especially on the effect called reverse rotation, where the intrinsic and orbital rotations are antiparallel. Contrary to what happens in the frictionless case, where steady reverse rotations are possible, we find that this dynamical behavior may exist only as a transient when dissipation is considered. Whether or not reverse rotations in fact occur depends on the initial conditions and on two parameters, one related to dragging, inertia, and driving, the other associated with the geometric configuration of the system. The critical value of this geometric parameter (separating the regions where reverse rotation is possible from those where it is forbidden) as a function of viscosity is well adjusted by a q-exponential function.

Published
2014
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41. Minimal fragmentation problem.

Author

Parisio F and Dias L

Abstract

As an alternative to the paradigmatic fragmentation problem of a single object crushed into a great number of pieces, we survey a large collection of identical bodies, each one randomly split into two fragments only. While some key features of usual fragmentation are preserved, this minimal approach allows for closed analytical results on both shape abundances and mass distributions for the fragments, with robust power-law regimes. All the results are compared to numerical simulations.

Published
2011
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42. Suppression of viscous fluid fingering: a piecewise-constant injection process.

Author

Dias EO, Parisio F, and Miranda JA

Subjects
Injections, Time Factors, Viscosity, Hydrodynamics, Models, Theoretical
Abstract

The injection of a fluid into another of larger viscosity in a Hele-Shaw cell usually results in the formation of highly branched patterns. Despite the richness of these structures, in many practical situations such convoluted shapes are quite undesirable. In this Brief Report, we propose an efficient and easily reproducible way to restrain these instabilities based on a simple piecewise-constant pumping protocol. It results in a reduction in the size of the viscous fingers by one order of magnitude.

Published
2010
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43. Reverse rotations in the circularly driven motion of a rigid body.

Author

Parisio F

Abstract

We study the dynamical response of a circularly driven rigid body, focusing on the description of intrinsic rotational behavior (reverse rotations). The model system we address is integrable but nontrivial, allowing for qualitative and quantitative analysis. A scale-free expression defining the separation between possible spinning regimes is obtained.

Published
2008
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44. Accuracy of liquid based versus conventional cytology: overall results of new technologies for cervical cancer screening: randomised controlled trial.

Author

Ronco G, Cuzick J, Pierotti P, Cariaggi MP, Dalla Palma P, Naldoni C, Ghiringhello B, Giorgi-Rossi P, Minucci D, Parisio F, Pojer A, Schiboni ML, Sintoni C, Zorzi M, Segnan N, and Confortini M

Subjects
Adult, Cytological Techniques methods, Female, Humans, Middle Aged, Sensitivity and Specificity, Uterine Cervical Neoplasms virology, Vaginal Smears standards, Uterine Cervical Dysplasia virology, Cytological Techniques standards, Mass Screening standards, Papillomavirus Infections diagnosis, Uterine Cervical Neoplasms prevention & control, Uterine Cervical Dysplasia prevention & control
Abstract

Objective: To compare the accuracy of conventional cytology with liquid based cytology for primary screening of cervical cancer., Design: Randomised controlled trial., Setting: Nine screening programmes in Italy., Participants: Women aged 25-60 attending for a new screening round: 22 466 were assigned to the conventional arm and 22 708 were assigned to the experimental arm., Interventions: Conventional cytology compared with liquid based cytology and testing for human papillomavirus., Main Outcome Measure: Relative sensitivity for cervical intraepithelial neoplasia of grade 2 or more at blindly reviewed histology, with atypical cells of undetermined significance or more severe cytology considered a positive result., Results: In an intention to screen analysis liquid based cytology showed no significant increase in sensitivity for cervical intraepithelial neoplasia of grade 2 or more (relative sensitivity 1.17, 95% confidence interval 0.87 to 1.56) whereas the positive predictive value was reduced (relative positive predictive value v conventional cytology 0.58, 0.44 to 0.77). Liquid based cytology detected more lesions of grade 1 or more (relative sensitivity 1.68, 1.40 to 2.02), with a larger increase among women aged 25-34 (P for heterogeneity 0.0006), but did not detect more lesions of grade 3 or more (relative sensitivity 0.84, 0.56 to 1.25). Results were similar when only low grade intraepithelial lesions or more severe cytology were considered a positive result. No evidence was found of heterogeneity between centres or of improvement with increasing time from start of the study. The relative frequency of women with at least one unsatisfactory result was lower with liquid based cytology (0.62, 0.56 to 0.69)., Conclusion: Liquid based cytology showed no statistically significant difference in sensitivity to conventional cytology for detection of cervical intraepithelial neoplasia of grade 2 or more. More positive results were found, however, leading to a lower positive predictive value. A large reduction in unsatisfactory smears was evident., Trial Registration: Current Controlled Trials ISRCTN81678807 [controlled-trials.com].

Published
2007
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45. Impact of the AutoPap (currently Focalpoint) primary screening system location guide use on interpretation time and diagnosis.

Author

Ronco G, Vineis C, Montanari G, Orlassino R, Parisio F, Arnaud S, Berardengo E, Fabbrini T, and Segnan N

Subjects
Adult, Automation, Carcinoma pathology, Female, Humans, Neoplasm Invasiveness, Neoplasm Staging, Observer Variation, Sensitivity and Specificity, Uterine Cervical Neoplasms pathology, Carcinoma diagnosis, Image Processing, Computer-Assisted, Uterine Cervical Neoplasms diagnosis, Vaginal Smears
Abstract

Background: AutoPap (currently Focalpoint) is a computerized scanning system for the primary screening of cervicovaginal smears. For smears indicated to require further review, the system provides maps (PapMaps) to identify the most abnormal areas of the smear., Methods: To study the effect of PapMaps on diagnosis, 481 smears (from 4656 successfully processed smears using AutoPap) were first classified by conventional manual interpretation and then reinterpreted blind by the same cytologist who limited his examination to only the fields of view marked by the PapMaps. The interpretation time with and without PapMaps was measured on another simple random sample of 188 smears., Results: The interpretation time was reduced significantly, by approximately 40% using PapMaps (average reduction, 136 seconds per smear, 95% confidence interval [CI], 123-150). No cases manually classified as low-grade squamous intraepithelial lesions (LSIL) or worse and 20% of those manually classified as atypical squamous cells of undertermined significance (ASCUS) were judged as completely normal on the basis of fields of visions marked by PapMaps. In none of the latter was a histologically confirmed intraepithelial lesion identified. In relation to detailed diagnosis, the weighted kappa between manual and PapMap-aided interpretation was 0.745 (95% CI 0.687-0.804). Systematic differences were found (symmetry chi-square(10d.f) =19.11, P = 0.039): 48% of smears classified as ASCUS and 23% classified as LSIL by conventional diagnosis were classified as less severe (including normal) on the basis of PapMaps., Conclusions: Use of PapMaps resulted in a substantial reduction in interpretation time. PapMaps showed good sensitivity (100% for squamous intraepithelial lesions and 80% for ACSUC) for selecting abnormal slides. The latter require full examination: detailed diagnosis based only on areas marked by PapMaps could lead to under-grading., (Copyright 2003 American Cancer Society.)

Published
2003
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46. [An operative model: verification of the quality of the screening Pap test ].

Author

Montanari GR, Arnaud S, Berardengo E, Campione D, Cozzani C, Parisio F, Viberti L, and Ghiringhello B

Subjects
Adult, Diagnosis, Differential, Diagnostic Errors, Female, Humans, Observer Variation, Quality Assurance, Health Care, Quality Control, Reproducibility of Results, Uterine Cervical Diseases diagnosis, Uterine Cervical Diseases pathology, Uterine Cervical Neoplasms diagnosis, Uterine Cervical Neoplasms pathology, Mass Screening standards, Vaginal Smears standards
Published
2001

47. Saffman-Taylor problem on a sphere.

Author

Parisio F, Moraes F, Miranda JA, and Widom M

Abstract

The Saffman-Taylor problem addresses the morphological instability of an interface separating two immiscible, viscous fluids when they move in a narrow gap between two flat parallel plates (Hele-Shaw cell). In this work, we extend the classic Saffman-Taylor situation, by considering the flow between two curved, closely spaced, concentric spheres (spherical Hele-Shaw cell). We derive the mode-coupling differential equation for the interface perturbation amplitudes and study both linear and nonlinear flow regimes. The effect of the spherical cell (positive) spatial curvature on the shape of the interfacial patterns is investigated. We show that stability properties of the fluid-fluid interface are sensitive to the curvature of the surface. In particular, it is found that positive spatial curvature inhibits finger tip-splitting. Hele-Shaw flow on weakly negative, curved surfaces is briefly discussed.

Published
2001
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48. Gravity-driven instability in a spherical Hele-Shaw cell.

Author

Miranda JA, Parisio F, Moraes F, and Widom M

Abstract

A pair of concentric spheres separated by a small gap form a spherical Hele-Shaw cell. In this cell an interfacial instability arises when two immiscible fluids flow. We derive the equation of motion for the interface perturbation amplitudes, including both pressure and gravity drivings, using a mode coupling approach. Linear stability analysis shows that mode growth rates depend upon interface perimeter and gravitational force. Mode coupling analysis reveals the formation of fingering structures presenting a tendency toward finger tip-sharpening.

Published
2001
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49. [The role of human papillomavirus in cyto-histological practice: distribution and prevalenceof hig-risk strains (16, 18, 31, 33, and 35) in intraepithelial lesions and neoplasia of the uterine cervix].

Author

Voglino G, Poso F, Privitera S, Parisio F, Ghiringhello B, Gordini G, Chiara G, Massobrio M, and Fessia L

Subjects
Adenocarcinoma epidemiology, Adult, Aged, Carcinoma, Squamous Cell epidemiology, Consensus Sequence, DNA Primers, DNA Probes, HPV, DNA, Neoplasm analysis, DNA, Viral analysis, Female, Humans, Italy epidemiology, Middle Aged, Papillomaviridae classification, Papillomaviridae isolation & purification, Papillomavirus Infections epidemiology, Polymerase Chain Reaction, Prevalence, Risk, Serotyping, Species Specificity, Specimen Handling, Tumor Virus Infections epidemiology, Uterine Cervical Neoplasms epidemiology, Virus Integration, Uterine Cervical Dysplasia epidemiology, Adenocarcinoma virology, Carcinoma, Squamous Cell virology, Papillomaviridae pathogenicity, Papillomavirus Infections virology, Tumor Virus Infections virology, Uterine Cervical Neoplasms virology, Uterine Cervical Dysplasia virology
Abstract

Introduction: Many studies have already shown the association of persistent infection of human high risk papillomavirus (HPV) with the development of pre-invasive and invasive cervical disease., Materials and Methods: We evaluated the use of high risk HPV testing in a study of about 1908 women, aged 29-78, who attending, from 1996 to 1998, the Sant'Anna Hospital in Turin for routine, second level smears and histopathological diagnosis. We considered all cervical lesions: ASCUS, LSIL, HSIL, squamous and adeno invasive cancers. HPV testing was performed by polymerase chain reaction (PCR) using L1 consensus primers which can detect almost all infections (high and low risk types). The most important high risk HPV types (16, 18, 31, 33 and 35) were tested using specific primers., Results: The prevalence of high risk HPV was: ASCUS 42.2%, LSIL 39%, HSIL 73.5%, squamous invasive cancers 98.3% and adeno 100%. In addition HPV 16 is the most represented type in all lesions: ASCUS 40%, LSIL 62%, HSIL 71.2% squamous invasive cancers 73.3% and adeno 50.6%. In addition we study the mean age of cervical cancer onset compared with the different high risk HPV types. We found that HPV 18 related cancer occurs in younger women (mean age 41 years; range 39-42)., Conclusions: The addition of high risk HPV testing to cytology may improve early identification of women at risk for cervical cancer.

Published
2000

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