Your search keyword '"Calvo, I"' showing total 1,300 results

1. Piecewise omnigenous stellarators

Author

Velasco, J. L., Calvo, I., Escoto, F. J., Sánchez, E., Thienpondt, H., and Parra, F. I.

Subjects

Physics - Plasma Physics

Abstract

In omnigeneous magnetic fields, charged particles are perfectly confined in the absence of collisions and turbulence. For this reason, the magnetic configuration is optimized to be close to omnigenity in any candidate for a stellarator fusion reactor. However, approaching omnigenity imposes severe constraints on the spatial variation of the magnetic field. In particular, the topology of the contours of constant magnetic-field-strength on each magnetic surface must be such that there are no particles transitioning between different types of wells. This, in turn, usually leads to complicated plasma shapes and coils. This Letter presents a new family of optimized fields that display tokamak-like collisional energy transport while having transitioning particles. This result radically broadens the space of accessible reactor-relevant configurations.

Published

2024

2. Reduced turbulent transport in the quasi-isodynamic stellarator configuration CIEMAT-QI4

Author

García-Regaña, J. M., Calvo, I., Sánchez, E., Thienpondt, H., Velasco, J. L., and Capitán, J. A.

Subjects

Physics - Plasma Physics

Abstract

CIEMAT-QI4 is a quasi-isodynamic stellarator configuration that simultaneously features very good fast-ion confinement in a broad range of $\beta$ values, low neoclassical transport and bootstrap current, and ideal magnetohydrodynamic stability up to $\beta=5\%$. In this paper it is shown that CIEMAT-QI4 also exhibits reduced turbulent transport. This is demonstrated through nonlinear electrostatic simulations with the gyrokinetic code stella, including kinetic ions and electrons. The relation between reduced turbulent transport and the fact that CIEMAT-QI4 very approximately satisfies the so-called maximum-J property is discussed., Comment: 12 pages, 9 figures

Published

2024

3. Influence of the density gradient on turbulent heat transport at ion-scales: an inter-machine study with the gyrokinetic code stella

Author

Thienpondt, H, García-Regaña, JM, Calvo, I, Acton, G, and Barnes, M

Subjects

Physics - Plasma Physics

Abstract

Efficient control of turbulent heat transport is crucial for magnetic confinement fusion reactors. This work discusses the complex interplay between density gradients and micro-instabilities, shedding light on their impact on turbulent heat transport in different fusion devices. In particular, the influence of density gradients on turbulent heat transport is investigated through an extensive inter-machine study, including various stellarators such as W7-X, LHD, TJ-II and NCSX, along with the Asdex-Upgrade tokamak and the tokamak geometry of the Cyclone Base Case (CBC). Linear and nonlinear simulations are performed employing the $\delta$f-gyrokinetic code stella across a wide range of parameters to explore the effects of density gradients, temperature gradients, and kinetic electrons. A strong reduction in ion heat flux with increasing density gradients is found in NCSX and W7-X due to the stabilization of temperature-gradient-driven modes without significantly destabilizing density-gradient-driven modes. In contrast, the tokamaks exhibit an increase in ion heat flux with density gradients. Notably, the behavior of ion heat fluxes in stellarators does not align with that of linear growth rates. Additionally, this study provides physical insights into the micro-instabilities, emphasizing the dominance of trapped-electron-modes in CBC, AUG, TJ-II, LHD and NCSX, while both the trapped-electron-mode and the passing-particle-driven universal instability contribute significantly in W7-X., Comment: 26 pages, 30 figures

Published

2024

4. MONKES: a fast neoclassical code for the evaluation of monoenergetic transport coefficients

Author

Escoto, F. J., Velasco, J. L., Calvo, I., Landreman, M., and Parra, F. I.

Subjects

Physics - Plasma Physics, Physics - Computational Physics

Abstract

MONKES is a new neoclassical code for the evaluation of monoenergetic transport coefficients in stellarators. By means of a convergence study and benchmarks with other codes, it is shown that MONKES is accurate and efficient. The combination of spectral discretization in spatial and velocity coordinates with block sparsity allows MONKES to compute monoenergetic coefficients at low collisionality, in a single core, in approximately one minute. MONKES is sufficiently fast to be integrated into stellarator optimization codes for direct optimization of the bootstrap current and to be included in predictive transport suites. The code and data from this paper are available at https://github.com/JavierEscoto/MONKES/

Published

2023

5. Electrostatic microturbulence in W7-X: comparison of local gyrokinetic simulations with Doppler reflectometry measurements

Author

González-Jerez, A., García-Regaña, J. M., Calvo, I., Carralero, D., Estrada, T., Sánchez, E., Barnes, M., and Team, the W7-X

Subjects

Physics - Plasma Physics

Abstract

The first experimental campaigns of Wendelstein 7-X (W7-X) have shown that turbulence plays a decisive role in the performance of neoclassically optimized stellarators. This stresses the importance of understanding microturbulence from the theoretical and experimental points of view. To this end, this paper addresses a comprehensive characterization of the turbulent fluctuations by means of nonlinear gyrokinetic simulations performed with the code stella in two W7-X scenarios. In the first part of the paper, the amplitude of the density fluctuations is calculated and compared with measurements obtained by Doppler reflectometry (DR) in the OP1 experimental campaigns. It is found that the trend of the fluctuations along the radius is explained by the access of the DR system to different regions of the turbulence wavenumber spectrum. In the second part of the article, frequency spectra of the density fluctuations and the zonal component of the turbulent flow are numerically characterized for comparisons against future experimental analyses. Both quantities feature broad frequency spectra with dominant frequencies of O(1)-O(10) kHz., Comment: 27 pages, 16 figures

Published

2023

6. Robust stellarator optimization via flat mirror magnetic fields

Author

Velasco, J. L., Calvo, I., Sánchez, E., and Parra, F. I.

Subjects

Physics - Plasma Physics

Abstract

Stellarator magnetic configurations need to be optimized in order to meet all the required properties of a fusion reactor. In this work, it is shown that a flat-mirror quasi-isodynamic configuration (i.e. a quasi-isodynamic configuration with sufficiently small radial variation of the mirror term) can achieve small radial transport of energy and good confinement of bulk and fast ions even if it is not very close to perfect omnigeneity, and for a wide range of plasma scenarios, including low $\beta$ and small radial electric field. This opens the door to constructing better stellarator reactors. On the one hand, they would be easier to design, as they would be robust against error fields. On the other hand, they would be easier to operate since, both during startup and steady-state operation, they would require less auxiliary power, and the damage to plasma-facing components caused by fast ion losses would be reduced to acceptable levels.

Published

2023

7. Reduction or enhancement of stellarator turbulence by impurities

Author

García-Regaña, J. M., Calvo, I., Parra, F. I., and Thienpondt, H.

Subjects

Physics - Plasma Physics

Abstract

A systematic study of the impact of impurities on the turbulent heat fluxes is presented for the stellarator Wendelstein 7-X (W7-X) and, for comparison, the Large Helical Device and ITER. By means of nonlinear multispecies gyrokinetic simulations, it is shown that impurities, depending on the sign of their density gradient, can significantly enhance or reduce turbulent ion heat losses. For the relevant scenario of turbulence reduction, an optimal impurity concentration that minimizes the ion heat diffusivity emerges as a universal feature. This result demonstrates the potential of impurities for controlling turbulence and accessing enhanced confinement regimes in fusion plasmas and, in particular, in W7-X., Comment: 8 pages, 8 figures

Published

2023

8. A quasi-isodynamic configuration with good confinement of fast ions at low plasma $\beta$

Author

Sánchez, E., Velasco, J. L., Calvo, I., and Mulas, S.

Subjects

Physics - Plasma Physics

Abstract

A new quasi-isodynamic stellarator configuration optimized for the confinement of energetic ions at low plasma $\beta$ is obtained. The numerical optimization is carried out using the STELLOPT suite of codes. New proxies to measure closeness to quasi-isodynamicity and quality of fast ion confinement have been included. The new configuration has poloidally closed contours of magnetic field strength, low magnetic shear and a rotational transform profile allowing an island divertor. It shows ideal and ballooning magnetohydrodynamic stability up to $\beta = 5%$, reduced effective ripple, with $\epsilon_{eff} < 0.5%$ in the plasma core. Even at low $\beta$, the configuration approximately satisfies the maximum-$J$ property, and the confinement of fast ions is good at $\beta \sim 1.5%$ and becomes excellent at reactor values, $\beta \sim 4%$. An evaluation of the $D_{31}$ neoclassical mono-energetic coefficient supports the expectation of a reduced bootstrap current for plasmas confined in quasi-isodynamic configurations. A set of filamentary coils that preserve the good confinement of fast ions in the core is presented., Comment: 21 pages, 16 figures

Published

2022

9. Prevention of core particle depletion in stellarators by turbulence

Author

Thienpondt, H., García-Regaña, J. M., Calvo, I., Alonso, J. A., Velasco, J. L., González-Jerez, A., Barnes, M., Brunner, K., Ford, O., Fuchert, G., Knauer, J., Pasch, E., Vanó, L., and team, the Wendelstein 7-X

Subjects

Physics - Plasma Physics

Abstract

In reactor-relevant plasmas, neoclassical transport drives an outward particle flux in the core of large stellarators and predicts strongly hollow density profiles. However, this theoretical prediction is contradicted by experiments. In particular, in Wendelstein 7-X, the first large optimized stellarator, flat or weakly peaked density profiles are generally measured, indicating that neoclassical theory is not sufficient and that an inward contribution to the particle flux is missing in the core. In this Research Letter, it is shown that the turbulent contribution to the particle flux can explain the difference between experimental measurements and neoclassical predictions. The results of this Research Letter also prove that theoretical and numerical tools are approaching the level of maturity needed for the prediction of equilibrium density profiles in stellarator plasmas, which is a fundamental requirement for the design of operation scenarios of present devices and future reactors., Comment: 8 pages, 6 figures, updated the title and incorporated the appendix into the main letter

Published

2022

10. On the role of density fluctuations in the core turbulent transport of Wendelstein 7-X

Author

Carralero, D., Estrada, T., Maragkoudakis, E., Windisch, T., Alonso, J. A., Velasco, J. L., Ford, O., Jakubowski, M., Lazerson, S., Beurskens, M., Bozhenkov, S., Calvo, I., Damm, H., Fuchert, G., García-Regaña, J. M., Höfel, U., Marushchenko, N., Pablant, N., Sánchez, E., Smith, H. M., Pasch, E., and Stange, T.

Subjects

Physics - Plasma Physics

Abstract

A recent characterization of core turbulence carried out with a Doppler reflectometer in the optimized stellarator Wendelstein 7-X (W7-X) found that discharges achieving high ion temperatures at the core featured an ITG-like suppression of density fluctuations driven by a reduction of the gradient ratio $\eta_i = L_n/L_{T_i}$ [D. Carralero et al., Nucl. Fusion, 2021]. In order to confirm the role of ITG turbulence in this process, we set out to establish experimentally the relation between core density fluctuations, turbulent heat flux and global confinement. With this aim, we consider the scenarios found in the previous work and carry out power balance analysis for a number of representative ones, including some featuring high ion temperature. As well, we evaluate the global energy confinement time and discuss it in the context of the ISS04 inter-stellarator scaling. We find that, when turbulence is suppressed as a result of a reduction of $\eta_i$, there is a reduction of ion turbulent transport, and global performance is improved as a result. This is consistent with ITG turbulence limiting the ion temperature at the core of W7-X. In contrast, when turbulence is reduced following a decrease in collisionality, no changes are observed in transport or confinement. This could be explained by ITG modes being combined with TEM turbulence when the later is destabilized at low collisionalities., Comment: Submitted to PPCF, 47th EPS special issue

Published

2021

11. Physics design point of high-field stellarator reactors

Author

Alonso, J. A., Calvo, I., Carralero, D., Velasco, J. L., García-Regaña, J. M., Palermo, I., and Rapisarda, D.

Subjects

Physics - Plasma Physics

Abstract

The ongoing development of electromagnets based on High Temperature Superconductors has led to the conceptual exploration of high-magnetic-field fusion reactors of the tokamak type, operating at on-axis fields above 10 T. In this work we explore the consequences of the potential future availability of high-field three-dimensional electromagnets on the physics design point of a stellarator reactor. We find that, when an increase in the magnetic field strength $B$ is used to maximally reduce the device linear size $R\sim B^{-4/3}$ (with otherwise fixed magnetic geometry), the physics design point is largely independent of the chosen field strength/device size. A similar degree of optimization is to be imposed on the magnetohydrodynamic, transport and fast ion confinement properties of the magnetic configuration of that family of reactor design points. Additionally, we show that the family shares an invariant operation map of fusion power output as a function of the auxiliary power and relative density variation. The effects of magnetic field over-engineering and the $R(B)$ scaling of design points with constant neutron wall loading are also inspected. In this study we use geometric parameters characteristic of the helias reactor, but most results apply to other stellarator configurations

Published

2021

12. Electrostatic gyrokinetic simulations in Wendelstein 7-X geometry: benchmark between the codes stella and GENE

Author

González-Jerez, A., Xanthopoulos, P., García-Regaña, J. M., Calvo, I., Alcusón, J., Bañón-Navarro, A., Barnes, M., Parra, F. I., and Geiger, J.

Subjects

Physics - Plasma Physics

Abstract

The first experimental campaigns have proven that, due to the optimization of the magnetic configuration with respect to neoclassical transport, the contribution of turbulence is essential to understand and predict the total particle and energy transport in Wendelstein 7-X (W7-X). This has spurred much work on gyrokinetic modelling for the interpretation of the available experimental results and for the preparation of the next campaigns. At the same time, new stellarator gyrokinetic codes have just been or are being developed. It is therefore desirable to have a sufficiently complete, documented and verified set of gyrokinetic simulations in W7-X geometry against which new codes or upgrades of existing codes can be tested and benchmarked. This paper attemps to provide such a set of simulations in the form of a comprehensive benchmark between the recently developed code stella and the well-established code GENE. The benchmark consists of electrostatic gyrokinetic simulations in W7-X magnetic geometry and includes different flux tubes, linear ion-temperature-gradient (ITG) and trapped-electron-mode (TEM)} stability analyses, computation of linear zonal flow responses and calculation of ITG-driven heat fluxes.

Published

2021

13. A model for the fast evaluation of prompt losses of energetic ions in stellarators

Author

Velasco, J. L., Calvo, I., Mulas, S., Sánchez, E., Parra, F. I., Cappa, Á., and team, the W7-X

Subjects

Physics - Plasma Physics

Abstract

A good understanding of the confinement of energetic ions in non-axisymmetric magnetic fields is key for the design of reactors based on the stellarator concept. In this work, we develop a model that, based on the radially-local bounce-averaged drift-kinetic equation, classifies orbits and succeeds in predicting configuration-dependent aspects of the prompt losses of energetic ions in stellarators. Such a model could in turn be employed in the optimization stage of the design of new devices.

Published

2021

14. Turbulent transport of impurities in 3D devices

Author

García-Regaña, J. M., Barnes, M., Calvo, I., González-Jerez, A., Thienpondt, H., Sánchez, E., Parra, F. I., and -Onge, D. St.

Subjects

Physics - Plasma Physics

Abstract

A large diffusive turbulent contribution to the radial impurity transport in Wendelstein 7-X (W7-X) plasmas has been experimentally inferred during the first campaigns and numerically confirmed by means of gyrokinetic simulations with the code stella. In general, the absence of strong impurity accumulation during the initial W7-X campaigns is attributed to this diffusive term. In the present work the diffusive contribution is also calculated in other stellarator plasmas. In particular, the diffusion (D) and convection (V) coefficients of carbon and iron impurities produced by ion-temperature-gradient (ITG) turbulence are obtained for W7-X, LHD, TJ-II and NCSX. The results show that, although the size of D and V can differ across the four devices, inward convection is found for all of them. For W7-X, TJ-II and NCSX the two coefficients are comparable and the turbulent peaking factor is surprisingly similar. In LHD, appreciably weaker diffusive and convective impurity transport and significantly larger turbulent peaking factor are predicted. All this suggests that ITG turbulence, although not strongly, would lead to negative impurity density gradients in stellarators. Then, considering mixed ITG/Trapped Electron Mode (TEM) turbulence for the specific case of W7-X, it has been quantitatively assessed to what degree pellet fueled reduced turbulence scenarios feature reduced turbulent transport of impurities as well. The results for trace iron impurities show that, although their turbulent transport is not entirely suppressed, a significant reduction of V and a stronger decrease of D are found. Although the diffusion is still above neoclassical levels, the neoclassical convection would gain under such conditions a greater specific weight on the dynamics of impurities in comparison with standard ECRH scenarios., Comment: 16 pages, 8 figures

Published

2021

15. Gyrokinetic simulations in stellarators using different computational domains

Author

Sánchez, E., García-Regaña, J. M., Navarro, A. Bañón, Proll, J. H. E., Moreno, C. Mora, González-Jerez, A., Calvo, I., Kleiber, R., Riemann, J., Smoniewski, J., Barnes, M., and Parra, F. I.

Subjects

Physics - Plasma Physics, Physics - Computational Physics

Abstract

In this work, we compare gyrokinetic simulations in stellarators using different computational domains, namely, flux tube, full-flux-surface, and radially global domains. Two problems are studied: the linear relaxation of zonal flows and the linear stability of ion temperature gradient (ITG) modes. Simulations are carried out with the codes EUTERPE, GENE, GENE-3D, and stella in magnetic configurations of LHD and W7-X using adiabatic electrons. The zonal flow relaxation properties obtained in different flux tubes are found to differ with each other and with the radially global result, except for sufficiently long flux tubes, in general. The flux tube length required for convergence is configuration-dependent. Similarly, for ITG instabilities, different flux tubes provide different results, but the discrepancy between them diminishes with increasing flux tube length. Full-flux-surface and flux tube simulations show good agreement in the calculation of the growth rate and frequency of the most unstable modes in LHD, while for W7-X differences in the growth rates are found between the flux tube and the full-flux-surface domains. Radially global simulations provide results close to the full-flux-surface ones. The radial scale of unstable ITG modes is studied in global and flux tube simulations finding that in W7-X, the radial scale of the most unstable modes depends on the binormal wavenumber, while in LHD no clear dependency is found., Comment: submitted to Nuclear Fusion

Published

2021

16. Fast simulations for large aspect ratio stellarators with the neoclassical code KNOSOS

Author

Velasco, J. L., Calvo, I., Parra, F. I., d'Herbemont, V., Smith, H. M., Carralero, D., Estrada, T., and team, the W7-X

Subjects

Physics - Plasma Physics

Abstract

In this work, a new version of KNOSOS is presented. KNOSOS is a low-collisionality radially-local, bounce-averaged neoclassical code that is extremely fast, and at the same time, includes physical effects often neglected by more standard codes: the component of the magnetic drift that is tangent to the flux-surface and the variation of the electrostatic potential on the flux-surface. An earlier version of the code could only describe configurations that were sufficiently optimized with respect to neoclassical transport. KNOSOS can now be applied to any large aspect ratio stellarator, and its performance is demonstrated by means of detailed simulations in the configuration space of Wendelstein 7-X., Comment: IAEA paper, submitted to Nuclear Fusion

Published

2021

17. An experimental characterization of core turbulence regimes in Wendelstein 7-X

Author

Carralero, D., Estrada, T., Maragkoudakis, E., Windisch, T., Alonso, J. A., Beurskens, M., Bozhenkov, S., Calvo, I., Damm, H., Ford, O., Fuchert, G., García-Regaña, J. M., Pablant, N., Sánchez, E., Pasch, E., Velasco, J. L., and team, the Wendelstein 7-X

Subjects

Physics - Plasma Physics

Abstract

First results from the optimized helias Wendelstein 7-X stellarator (W7-X) have shown that core transport is no longer mostly neoclassical, as is the case in previous kinds of stellarators. Instead, turbulent transport poses a serious limitation to the global performance of the machine. Several studies have found this particularly relevant for ion transport, with core ion temperatures becoming clamped at relatively low values of $T_{i} \simeq 1.7$ keV, except in the few scenarios in which turbulence can be suppressed. In order to understand turbulent mechanisms at play, it is important to have a clear understanding of the parametric dependencies of turbulent fluctuations, and the relation between them and turbulent transport. In this work we use Doppler reflectometry measurements carried out during a number of relevant operational scenarios to provide a systematic characterization of ion-scale ($k_\perp\rho_i\simeq 1$) density fluctuations in the core of W7-X. Then, we study the relation between fluctuation amplitude and plasma profiles and show how distinct regimes can be defined for the former, depending on normalized gradients $a/L_{ne}$ and $a/L_{Ti}$. Furthermore, we discuss the importance of other potentially relevant parameters such as $T_e/T_i$, $E_r$ or collisionality. Comparing the different regimes, we find that turbulence amplitude depends generally on the gradient ratio $\eta_i=L_{ne}/L_{Ti}$, as would be expected for ITG modes, with the exception of a range of discharges, for which turbulence suppression may be better explained by an ITG to TEM transition triggered by a drop in collisionality. Finally, we show a number of scenarios under which $T_{i,core} > 1.7$ keV is achieved and how core fluctuations are suppressed in all of them, thus providing experimental evidence of microturbulence being the main responsible for the limited ion confinement in W7-X., Comment: Manuscript submitted to Nuclear Fusion in May 2021

Published

2021

18. Comparison of local and global gyrokinetic calculations of collisionless zonal flow damping in quasi-symmetric stellarators

Author

Smoniewski, J., Sánchez, E., Calvo, I., Pueschel, M. J., and Talmadge, J. N.

Subjects

Physics - Plasma Physics

Abstract

The linear collisionless damping of zonal flows is calculated for quasi-symmetric stellarator equilibria in flux-tube, flux-surface, and full-volume geometry. Equilibria are studied from the quasi-helical symmetry configuration of the Helically Symmetric eXperiment (HSX), a broken symmetry configuration of HSX, and the quasi-axial symmetry geometry of the National Compact Stellarator eXperiment (NCSX). Zonal flow oscillations and long-time damping affect the zonal flow evolution, and the zonal flow residual goes to zero for small radial wavenumber. The oscillation frequency and damping rate depend on the bounce-averaged radial particle drift in accordance with theory. While each flux tube on a flux surface is unique, several different flux tubes in HSX or NCSX can reproduce the zonal flow damping from a flux-surface calculation given an adequate parallel extent. The flux-surface or flux-tube calculations can accurately reproduce the full-volume long-time residual for moderate $k_x$, but the oscillation and damping time scales are longer in local representations, particularly for small $k_x$ approaching the system size., Comment: The following article has been accepted by Physics of Plasmas. After it is published, it will be found at https://aip.scitation.org/journal/php. 33 pages, 18 figures

Published

2020

19. Turbulent impurity transport simulations in Wendelstein 7-X plasmas

Author

García-Regaña, J. M., Barnes, M., Calvo, I., Parra, F. I., Alcusón, J., Davies, R., González-Jerez, A., Mollén, A., Sánchez, E., Velasco, J. L., and Zocco, A.

Subjects

Physics - Plasma Physics

Abstract

A study of turbulent impurity transport by means of quasilinear and nonlinear gyrokinetic simulations is presented for Wendelstein 7-X (W7-X). The calculations have been carried out with the recently developed gyrokinetic code stella. Different impurity species are considered in the presence of various types of background instabilities: ITG, TEM and ETG modes for the quasilinear part of the work; ITG and TEM for the nonlinear results. While the quasilinear approach allows one to draw qualitative conclusions about the sign or relative importance of the various contributions to the flux, the nonlinear simulations quantitatively determine the size of the turbulent flux and check the extent to which the quasilinear conclusions hold. Although the bulk of the nonlinear simulations are performed at trace impurity concentration, nonlinear simulations are also carried out at realistic effective charge values, in order to know to what degree the conclusions based on the simulations performed for trace impurities can be extrapolated to realistic impurity concentrations. The presented results conclude that the turbulent radial impurity transport in W7-X is mainly dominated by ordinary diffusion, which is close to that measured during the recent W7-X experimental campaigns. It is also confirmed that thermo-diffusion adds a weak inward flux contribution and that, in the absence of impurity temperature and density gradients, ITG- and TEM-driven turbulence push the impurities inwards and outwards, respectively., Comment: 19 pages, 10 figures, 2 tables

Published

2020

20. KNOSOS: a fast orbit-averaging neoclassical code for stellarator geometry

Author

Velasco, J. L., Calvo, I., Parra, F. I., and García-Regaña, J. M.

Subjects

Physics - Plasma Physics

Abstract

KNOSOS (KiNetic Orbit-averaging SOlver for Stellarators) is a freely available, open-source code (\href{https://github.com/joseluisvelasco/KNOSOS}{https://github.com/joseluisvelasco/KNOSOS}) that calculates neoclassical transport in low-collisionality plasmas of three-dimensional magnetic confinement devices by solving the radially local drift-kinetic and quasineutrality equations. The main feature of KNOSOS is that it relies on orbit-averaging to solve the drift-kinetic equation very fast. KNOSOS treats rigorously the effect of the component of the magnetic drift that is tangent to magnetic surfaces, and of the component of the electrostatic potential that varies on the flux surface, {\varphi}_1. Furthermore, the equation solved is linear in {\varphi}_1, which permits an efficient solution of the quasineutrality equation. As long as the radially local approach is valid, KNOSOS can be applied to the calculation of neoclassical transport in stellarators (helias, heliotrons, heliacs, etc.) and tokamaks with broken axisymmetry. In this paper, we show several calculations for the stellarators W7-X, LHD, NCSX and TJ-II that provide benchmark with standard local codes and demonstrate the advantages of this approach.

Published

2019

21. Microbially induced calcium carbonate precipitation in fossil consolidation treatments: Preliminary results inducing exogenous Myxococcus xanthus bacteria in a miocene Cheirogaster richardi specimen

Author

Marín-Ortega, Silvia, Àngels Calvo i Torras, M., and Iglesias-Campos, Manuel Ángel

Published

2023

22. Microbially induced calcium carbonate precipitation in fossil consolidation treatments: Preliminary results inducing exogenous Myxococcus xanthus bacteria in a miocene Cheirogaster richardi specimen

Author

Silvia Marín-Ortega, M. Àngels Calvo i Torras, and Manuel Ángel Iglesias-Campos

Subjects

Microbially induced calcium carbonate precipitation, Conservation, Fossil, Myxococcus xanthus, paleontological heritage, Bioconsolidation, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

This research paper proposes Microbially Induced Calcium Carbonate Precipitation (MICP) as an innovative approach for palaeontological heritage conservation, specifically on deteriorated carbonate fossils. Due to its efficiency in bioconsolidation of carbonate ornamental rocks, Myxococcus xanthus inoculation on carbonate fossils was studied in this research.Treatment was tested on nine fossil samples from decontextualized fragments of Cheirogaster richardi specimens (Can Mata site, Hostalets de Pierola, Catalonia, Spain). The main objective was to evaluate whether treatment with Myxococcus xanthus improved fossil surface cohesion and hardness and mechanical strength without significant physicochemical and aesthetic changes to the surface. Chemical compatibility of the treatment, penetration capacity and absence of noticeable changes in substrate porosity were considered as important issues to be evaluated.Samples were analysed, before and after treatment, by scanning electron microscopy, weight control, spectrophotometry, X-ray diffraction analysis, water absorption analysis, pH and conductivity control, Vickers microindentation and tape test. Results show that hardness increases by a factor of almost two. Cohesion also increases and surface disaggregated particles are bonded together by a calcium carbonate micrometric layer with no noticeable changes in surface roughness. Colour and gloss variations are negligible, and pH, conductivity and weight hardly change. Slight changes in porosity were observed but without total pore clogging.To sum up, results indicate that Myxococcus xanthus biomineralisation is an effective consolidation treatment for carbonate fossils and highly compatible with carbonate substrates. Furthermore, bacterial precipitation of calcium carbonate is a safe and eco-friendly consolidation treatment.

Published

2023

23. POS0925 VISUAL MANIFESTATIONS IN GIANT CELL ARTERITIS: IDENTIFICATION OF RISK FACTORS FROM THE ARTESER REGISTRY

Author

Molina-Collada, J., primary, Dominguez-Alvaro, M., additional, Melero-González, R. B., additional, Fernández-Fernández, E., additional, Silva-Díaz, M., additional, Valero Jaimes, J. A., additional, González, I., additional, Sanchez-Martín, J., additional, Narváez, J., additional, Calvo, I., additional, Mendizabal, J., additional, Abasolo, L., additional, Loricera, J., additional, Ruiz Román, A., additional, Moya, P., additional, Tortosa Cabañas, M., additional, Estrada, P., additional, Prado, F. J., additional, Castañeda, S., additional, and Blanco, R., additional

Published

2024

24. On-surface potential and radial electric field variations in electron root stellarator plasmas

Author

García-Regaña, J. M., Estrada, T., Calvo, I., Velasco, J. L., Alonso, J. A., Carralero, D., Kleiber, R., Landreman, M., Mollén, A., Sánchez, E., and Slaby, C.

Subjects

Physics - Plasma Physics

Abstract

In the present work we report recent radial electric field measurements carried out with the Doppler reflectometry system in the TJ-II stellarator. The study focuses on the fact that, under some conditions, the radial electric field measured at different points over the same flux surface shows significantly different values. A numerical analysis is carried out considering the contribution arising from the radial dependence of $\Phi_1$ as a possible correction term to the total radial electric field. Here $\Phi_1$ is the neoclassical electrostatic potential variation over the surface. The comparison shows good agreement in some aspects, like the conditions under which this correction is large (electron-root conditions) or negligible (ion-root conditions). But it disagrees in others like the sign of the correction. The results are discussed together with the underlying reasons of this partial disagreement. In addition, motivated by the recent installation of the dual Doppler reflectometry system in Wendelstein 7-X (W7-X), $\Phi_1$ estimations for W7-X are revisited considering Core-Electron-Root-Plasma (CERC) plasmas from its first experimental campaign. The simulations show larger values of $\Phi_1$ under electron-root conditions than under ion root ones. The contribution from the kinetic electron response is shown to become important at some radii. All this results in a potential variation size noticeably larger than estimated in our previous work in W7-X \cite{Regana_nf_57_056004_2017} for other plasma parameters and another configuration., Comment: 23 pages, 10 figures

Published

2018

25. Oscillatory relaxation of zonal flows in a multi-species stellarator plasma

Author

Sánchez, E., Calvo, I., Velasco, J. L., Medina, F., Alonso, A., Monreal, P., Kleiber, R., and team, the TJ-II

Subjects

Physics - Plasma Physics

Abstract

The low frequency oscillatory relaxation of zonal potential perturbations is studied numerically in the TJ-II stellarator (where it was experimentally detected for the first time). It is studied in full global gyrokinetic simulations of multi-species plasmas. The oscillation frequency obtained is compared with predictions based on single-species simulations using simplified analytical relations. It is shown that the frequency of this oscillation for a multi-species plasma can be accurately obtained from single-species calculations using extrapolation formulas. The damping of the oscillation and the influence of the different inter-species collisions is studied in detail. It is concluded that taking into account multiple kinetic ions and electrons with impurity concentrations realistic for TJ-II plasmas allows to account for the values of frequency and damping rate in zonal flows relaxations observed experimentally., Comment: 11 figures, 22 pages

Published

2018

26. Large tangential electric fields in plasmas close to temperature screening

Author

Velasco, J. L., Calvo, I., García-Regaña, J. M., Parra, F. I., Satake, S., Alonso, J. A., and team, the LHD

Subjects

Physics - Plasma Physics

Abstract

Low-collisionality stellarator plasmas usually display a large negative radial electric field that has been expected to cause accumulation of impurities due to their high charge number. In this paper, two combined effects that can potentially modify this scenario are discussed. First, it is shown that, in low collisionality plasmas, the kinetic contribution of the electrons to the radial electric field can make it negative but small, bringing the plasma close to impurity temperature screening (i.e., to a situation in which the ion temperature gradient is the main drive of impurity transport and causes outward flux); in plasmas of very low collisionality, such as those of the Large Helical Device displaying impurity hole, screening may actually occur. Second, the component of the electric field that is tangent to the flux surface (in other words, the variation of the electrostatic potential on the flux surface), although smaller than the radial component, has recently been suggested to be an additional relevant drive for radial impurity transport. Here, it is explained that, especially when the radial electric field is small, the tangential magnetic drift has to be kept in order to correctly compute the tangential electric field, that can be larger than previously expected. This can have a strong impact on impurity transport, as we illustrate by means of simulations using the newly-developed code KNOSOS (KiNetic Orbit-averaging-SOlver for Stellarators).

Published

2017

27. Phosphoproteomic analysis of neoadjuvant breast cancer suggests that increased sensitivity to paclitaxel is driven by CDK4 and filamin A

Author

Mouron, S., Bueno, M. J., Lluch, A., Manso, L., Calvo, I., Cortes, J., Garcia-Saenz, J. A., Gil-Gil, M., Martinez-Janez, N., Apala, J. V., Caleiras, E., Ximénez-Embún, Pilar, Muñoz, J., Gonzalez-Cortijo, L., Murillo, R., Sánchez-Bayona, R., Cejalvo, J. M., Gómez-López, G., Fustero-Torre, C., Sabroso-Lasa, S., Malats, N., Martinez, M., Moreno, A., Megias, D., Malumbres, M., Colomer, R., and Quintela-Fandino, M.

Published

2022

28. Observation of oscillatory radial electric field relaxation in a helical plasma

Author

Alonso, J. A., Sanchez, E., Calvo, I., Velasco, J. L., Perfilov, S., Chmyga, A., Eliseev, L. G., Krupnik, L. I., Estrada, T., Kleiber, R., McCarthy, K. J., Melnikov, A. V., Monreal, P., Parra, F. I., Zhezhera, A. I., and Team, the TJ-II

Subjects

Physics - Plasma Physics

Abstract

Measurements of the relaxation of a zonal electrostatic potential perturbation in a non-axisymmetric magnetically confined plasma are presented. A sudden perturbation of the plasma equilibrium is induced by the injection of a cryogenic hydrogen pellet in the TJ-II stellarator, which is observed to be followed by a damped oscillation in the electrostatic potential. The waveform of the relaxation is consistent with theoretical calculations of zonal potential relaxation in a non-axisymmetric magnetic geometry. The turbulent transport properties of a magnetic confinement configuration are expected to depend on the features of the collisionless damping of zonal flows, of which the present letter is the first direct observation.

Published

2016

29. Moderation of neoclassical impurity accumulation in high temperature plasmas of helical devices

Author

Velasco, J. L., Calvo, I., Satake, S., Alonso, A., Nunami, M., Yokoyama, M., Sato, M., Estrada, T., Fontdecaba, J. M., Liniers, M., McCarthy, K. J., Medina, F., Van Milligen, B. Ph, Ochando, M., Parra, F., Sugama, H., Zhezhera, A., team, the LHD experimental, and team, the TJ-II

Subjects

Physics - Plasma Physics

Abstract

Achieving impurity and helium ash control is a crucial issue in the path towards fusion-grade magnetic confinement devices, and this is particularly the case of helical reactors, whose low-collisionality ion-root operation scenarios usually display a negative radial electric field which is expected to cause inwards impurity pinch. In these work we discuss, based on experimental measurements and standard predictions of neoclassical theory, how plasmas of very low ion collisionality, similar to those observed in the impurity hole of the Large Helical Device, can be an exception to this general rule, and how a negative radial electric field can coexist with an outward impurity flux. This interpretation is supported by comparison with documented discharges available in the International Stellarator-Heliotron Profile Database, and it can be extrapolated to show that achievement of high ion temperature in the core of helical devices is not fundamentally incompatible with low core impurity content.

Published

2016

30. Parallel impurity dynamics in the TJ-II stellarator

Author

Alonso, J A, Velasco, J L, Calvo, I, Estrada, T, Fontdecaba, J M, García-Regaña, J M, Geiger, J, Landreman, M, McCarthy, K J, Medina, F, Van Milligen, B Ph, Ochando, M A, Parra, F I, Team, the TJ-II, and Team, the W7-X

Subjects

Physics - Plasma Physics

Abstract

We review in a tutorial fashion some of the causes of impurity density variations along field lines and radial impurity transport in the moment approach framework. An explicit and compact form of the parallel inertia force valid for arbitrary toroidal geometry and magnetic coordinates is derived and shown to be non-negligible for typical TJ-II plasma conditions. In the second part of the article, we apply the fluid model including main ion-impurity friction and inertia to observations of asymmetric emissivity patterns in neutral beam heated plasmas of the TJ-II stellarator. The model is able to explain qualitatively several features of the radiation asymmetry, both in stationary and transient conditions, based on the calculated in-surface variations of the impurity density.

Published

2016

31. Particle transport after pellet injection in the TJ-II stellarator

Author

Velasco, J. L., McCarthy, K. J., Panadero, N., Satake, S., López-Bruna, D., Alonso, A., Calvo, I., Estrada, T., Fontdecaba, J. M., Hernández, J., García, R., Medina, F., Ochando, M., Pastor, I., Perfilov, S., Sánchez, E., Soleto, A., Van Milligen, B. Ph., Zhezhera, A., and team, the TJ-II

Subjects

Physics - Plasma Physics

Abstract

We study radial particle transport in stellarator plasmas using cryogenic pellet injection. By means of perturbative experiments, we estimate the experimental particle flux and compare it with neoclassical simulations. Experimental evidence is obtained of the fact that core depletion in helical devices can be slowed-down even by pellets that do not reach the core region. This phenomenon is well captured by neoclassical predictions with DKES and FORTEC-3D.

Published

2016

32. Impact of ADHD symptoms on family functioning, family burden and parents’ quality of life in a hospital area in Spain

Author

Peñuelas-Calvo, I., Palomar-Ciria, N., Porras-Segovia, A., Miguélez-Fernández, C., Baltasar-Tello, I., Colmenero, S. Perez, Delgado-Gómez, D., Carballo, J.J., and Baca-García, E.

Published

2021

33. Residual zonal flows in tokamaks and stellarators at arbitrary wavelengths

Author

Monreal, P., Calvo, I., Sánchez, E., Parra, F. I., Bustos, A., Könies, A., Kleiber, R., and Görler, T.

Subjects

Physics - Plasma Physics

Abstract

In the linear collisionless limit, a zonal potential perturbation in a toroidal plasma relaxes, in general, to a non-zero residual value. Expressions for the residual value in tokamak and stellarator geometries, and for arbitrary wavelengths, are derived. These expressions involve averages over the lowest order particle trajectories, that typically cannot be evaluated analytically. In this work, an efficient numerical method for the evaluation of such expressions is reported. It is shown that this method is faster than direct gyrokinetic simulations performed with the GENE and EUTERPE codes. Calculations of the residual value in stellarators are provided for much shorter wavelengths than previously available in the literature. Electrons must be treated kinetically in stellarators because, unlike in tokamaks, kinetic electrons modify the residual value even at long wavelengths. This effect, that had already been predicted theoretically, is confirmed by gyrokinetic simulations., Comment: 31 pages, 15 figures

Published

2015

34. KNOSOS: A fast orbit-averaging neoclassical code for stellarator geometry

Author

Velasco, J.L., Calvo, I., Parra, F.I., and García-Regaña, J.M.

Published

2020

35. Localizando elementos de interés mediante vehículos operados remotamente para la explotación sostenible de granjas acuícolas

Author

Gómez-Bravo, F., primary, Garrocho-Cruz, A., additional, Gutiérrez-Estrada, J.C., additional, Pulido-Calvo, I., additional, Castro-Gutiérrez, A., additional, Peregrín-Rubio, A., additional, and López-Domínguez, S., additional

Published

2021

36. Equivalence of two independent calculations of the higher order guiding center Lagrangian

Author

Parra, F. I., Calvo, I., Burby, J. W., Squire, J., and Qin, H.

Subjects

Physics - Plasma Physics

Abstract

The difference between the guiding center phase-space Lagrangians derived in [J.W. Burby, J. Squire, and H. Qin, Phys. Plasmas {\bf 20}, 072105 (2013)] and [F.I. Parra, and I. Calvo, Plasma Phys. Control. Fusion {\bf 53}, 045001 (2011)] is due to a different definition of the guiding center coordinates. In this brief communication the difference between the guiding center coordinates is calculated explicitly., Comment: 6 pages

Published

2014

37. Electrostatic potential variations along flux surfaces in stellarators

Author

Pedrosa, M. A., Alonso, J. A., García-Regaña, J. M., Hidalgo, C., Velasco, J. L., Calvo, I., Silva, C., Helander, P., and Kleiber, R.

Subjects

Physics - Plasma Physics

Abstract

First observations of electrostatic potential variations within the flux surfaces of a toroidal magnetic confinement device are presented. Measurements are taken in the TJ-II stellarator with two distant Langmuir probe arrays. The edge floating potentials display differences of several tens of Volts in electron-root wave-heated plasmas. The differences are reduced for higher densities and lower electron temperatures after the ion-root electric field forms at the plasma edge. Neoclassical Monte Carlo simulations estimate the correct order of magnitude for the overall variation in potential and predict the trend observed with the radial electric field. However, for the specific location of the probes, the simulations give differences smaller than those observed experimentally.

Published

2014

38. Dragons in the land of the condor: Writing Tusán in Peru

Author

López-Calvo, I and Chang-Rodríguez, E

Abstract

Building on his 2013 study on Nikkei cultural production in Peru, in Dragons in the Land of the Condor Ignacio López-Calvo studies the influence of a Chinese ethnic background in the writing of several twentieth- and twenty-first-century Sino-Peruvian authors. While authors like Siu Kam Wen and Julia Wong often rely on their Chinese cultural heritage for inspiration, many others, like Pedro Zulen, Mario Wong, and Julio Villanueva Chang, choose other sources of inspiration and identification. López-Calvo studies the different strategies used by these writers to claim either their belonging in the Peruvian national project or their difference as a minority ethnic group within Peru. Whether defending the rights of indigenous Peruvians, revealing the intricacies of a life of self-exploitation among Chinese shopkeepers, exploring their identitarian dilemmas, or re-creating—beyond racial memory—life under the political violence in Lima of the 1980s, these authors provide their community with a voice and a collective agency, while concomitantly repositioning contemporary Peruvian culture as transnational. López-Calvo bridges from his earlier study of Peruvian Nikkei’s testimonials and literature and raises this question: why are Chinese Peruvian authors seemingly more disconnected from their Asian heritage than Japanese Peruvian authors from theirs? The author argues that the Chinese arrival in Peru half a century earlier influenced a stronger identification with the criollo world. Yet he argues that this situation may soon be changing as the new geopolitical and economic influence of the People’s Republic of China in the world, particularly in Latin America and the Caribbean, affects the way Chinese and Sino–Latin American communities and their cultures are produced and perceived.

Published

2014

39. Post-stroke acquired childhood aphasia. A scoping review

Author

Gilardone, G, Vigano, M, Cassinelli, D, Fumagalli, F, Calvo, I, Gilardone, M, Sozzi, M, Corbo, M, Gilardone G., Vigano M., Cassinelli D., Fumagalli F. M., Calvo I., Gilardone M., Sozzi M., Corbo M., Gilardone, G, Vigano, M, Cassinelli, D, Fumagalli, F, Calvo, I, Gilardone, M, Sozzi, M, Corbo, M, Gilardone G., Vigano M., Cassinelli D., Fumagalli F. M., Calvo I., Gilardone M., Sozzi M., and Corbo M.

Abstract

Aphasia has a great impact on children’s lives, with stroke being its most common and studied etiology. However, our knowledge about this disorder is limited, the studies on this topic are sparse, and a consensus regarding its definition is lacking. In particular, the interpretation of this condition varied over time: from the rigid description of the so-called “standard doctrine” to the adoption of adult models for post-stroke aphasia. Therefore, this review provides a critical overview of childhood aphasia after stroke, focusing on its epidemiology, definition, diagnosis, and clinical manifestation. The scoping review approach was adopted, following PRISMA-ScR guidelines. PubMed, Web of Science, and PsycInfo databases were searched for related peer-review papers in English. Forty-six records were identified; the majority were single cases and case series, only a few were reviews and observational studies. Epidemiologic data are scarce; a few studies report that aphasia affects about one-third of children post-stroke. Despite terminological differences, there is an overall agreement on the definition of post-stroke aphasia in children as a language disorder acquired after the age of two. Approaches for the diagnosis and evaluation vary widely, including both assessments for developmental language disorders and tests for aphasia in adults. The clinical manifestations described in children are numerous and varied, similar to those found in adults, in contrast with the “standard doctrine.” This review highlights the need for further studies to improve the knowledge of this condition, develop validated and specific assessment tools, and standardize clinical management.

Published

2023

40. Damping of radial electric field fluctuations in the TJ-II stellarator

Author

Velasco, J L, Alonso, J A, Calvo, I, Arévalo, J, Sánchez, E, Eliseev, L, Perfilov, S, Estrada, T, López-Fraguas, A, Hidalgo, C, and team, the TJ-II

Subjects

Physics - Plasma Physics

Abstract

The drift kinetic equation is solved for low density TJ-II plasmas employing slowly varying, time-dependent profiles. This allows to simulate density ramp-up experiments and to describe from first principles the formation and physics of the radial electric field shear, which is associated to the transition from electron to ion root. We show that the range of frequencies of plasma potential fluctuations in which zonal flows are experimentally observed is neoclassically undamped in a neighborhood of the transition. This makes the electron root regime of stellarators, close to the transition to ion root, a propitious regime for the study of zonal-flow evolution. We present simulations of collisionless relaxation of zonal flows, in the sense of the Rosenbluth and Hinton test, that show an oscillatory behaviour in qualitative agreement with the experiment close to the transition.

Published

2013

41. The affinity of the eye: Writing Nikkei in Peru

Author

López-Calvo, I and Iwasaki, F

Abstract

In The Affinity of the Eye: Writing Nikkei in Peru, Ignacio L�pez-Calvo rises above the political emergence of the Fujimori phenomenon and uses politics and literature to provide one of the first comprehensive looks at how the Japanese assimilated and inserted themselves into Peruvian culture. Through contemporary writers testimonies, essays, fiction, and poetry, L�pez-Calvo constructs an account of the cultural formation of Japanese migrant communities. With deftly sensitive interviews and comments, he portrays the difficulties of being a Japanese Peruvian. Despite a few notable examples, Asian Peruvians have been excluded from a sense of belonging or national identity in Peru, which provides L�pez-Calvo with the opportunity to record what the community says about their own cultural production. In so doing, L�pez-Calvo challenges fixed notions of Japanese Peruvian identity. The Affinity of the Eye scrutinizes authors such as Jos� Watanabe, Fernando Iwasaki, Augusto Higa, Doris Moromisato, and Carlos Yushimito, discussing their literature and their connections to the past, present, and future. Whether these authors push against or accept what it means to be Japanese Peruvians, they enrich the images and feelings of that experience. Through a close reading of literary and cultural productions, L�pez-Calvos analysis challenges and reframes the parameters of being Nikkei in Peru. Covering both Japanese issues in Peru and Peruvian issues in Japan, the book is more than a compendium of stories, characters, and titles. It proves the fluid, enriching, and ongoing relationship that exists between Peru and Japan.

Published

2013

42. FAIRLANE, a double-blind placebo-controlled randomized phase II trial of neoadjuvant ipatasertib plus paclitaxel for early triple-negative breast cancer

Author

Oliveira, M., Saura, C., Nuciforo, P., Calvo, I., Andersen, J., Passos-Coelho, J.L., Gil Gil, M., Bermejo, B., Patt, D.A., Ciruelos, E., de la Peña, L., Xu, N., Wongchenko, M., Shi, Z., Singel, S.M., and Isakoff, S.J.

Published

2019

43. Vanishing neoclassical viscosity and physics of the shear layer in stellarators

Author

Velasco, J. L., Alonso, J. A., Calvo, I., and Arevalo, J.

Subjects

Physics - Plasma Physics

Abstract

The drift kinetic equation is solved for low density TJ-II plasmas employing slowly varying, time-dependent profiles. This allows to simulate density ramp-up experiments and describe from first principles the formation and physics of the radial electric field shear layer. The main features of the transition are perfectly captured by the calculation, and good quantitative agreement is also found. The results presented here, that should be valid for other non-quasisymmetric stellarators, provide a fundamental explanation for a wealth of experimental observations connected to the shear layer emergence in TJ-II. The key quantity is the neoclassical viscosity, which is shown to go smoothly to zero when the critical density is approached from below. This makes it possible for turbulence-related phenomena, and particularly zonal flows, to arise in the neighborhood of the transition., Comment: 5 pages, 5 figures, accepted for publication in Physical Review Letters

Published

2012

44. Generalized Central Limit Theorem and Renormalization Group

Author

Calvo, I., Cuchí, J. C., Esteve, J. G., and Falceto, F.

Subjects

Mathematical Physics, Condensed Matter - Statistical Mechanics, High Energy Physics - Theory

Abstract

We introduce a simple instance of the renormalization group transformation in the Banach space of probability densities. By changing the scaling of the renormalized variables we obtain, as fixed points of the transformation, the L\'evy strictly stable laws. We also investigate the behavior of the transformation around these fixed points and the domain of attraction for different values of the scaling parameter. The physical interest of a renormalization group approach to the generalized central limit theorem is discussed., Comment: 16 pages, to appear in J. Stat. Phys

Published

2010

45. Imaging the Chinese in Cuban literature and culture

Author

López-Calvo, I

Abstract

More than 150 years ago, the first Chinese contract laborers ("coolies") arrived in Cuba to work the colonial plantations. Eventually, over 150,000 Chinese immigrated to the island, and their presence has had a profound effect on all aspects of Cuban cultural production, from food to books to painting. Ignacio Lopez-Calvo's interpretations often go against the grain of earlier research, refusing to conceive of Cuban identity either in terms of a bipolar black/white opposition or an idyllic and harmonious process of miscegenation. He also counters traditional representations of chinos mambises, Chinese immigrants who fought for Cuba in the Wars of Independence against Spain. Imaging the Chinese in Cuban Literature and Culture fills a void in literary criticism, breaking new ground within the small field of Sino-Cuban studies. It is destined to set the tone for years to come. © 2008 by Ignacio López-Calvo. All rights reserved.

Published

2008

46. An algorithm to approximate reals by rationals of the form a/b^2

Author

Calvo, I. Jimenez

Subjects

Mathematics - Number Theory, 11Y65

Abstract

The papers shows an algorithm to search for approximations of reals to rationals of the form a/b^2 that runs on \sqrt(b) polynomial time steps., Comment: 4 pages, 1 figure

Published

2007

47. Reduction of Dirac structures along isotropic subbundles

Author

Calvo, I., Falceto, F., and Zambon, M.

Subjects

Mathematics - Differential Geometry, Mathematical Physics, 53D17, 53D99, 70H45

Abstract

Given a Dirac subbundle and an isotropic subbundle of a Courant algebroid, we provide a canonical method to obtain a new Dirac subbundle. When the original Dirac subbundle is involutive (i.e., a Dirac structure) this construction has interesting applications, for instance to Dirac's theory of constraints and to the Marsden-Ratiu reduction in Poisson geometry., Comment: 10 pages. Paper reformulated and reorganized. Added Section 5.3 on Poisson fibrations

Published

2007

48. A new algorithm to search for small nonzero |x^3 - y^2| values

Author

Calvo, I. Jimenez, Herranz, J., and Saez, G.

Subjects

Mathematics - Number Theory, 11Y50, 65A05

Abstract

In relation to Hall's conjecture, a new algorithm is presented to search for small k = |x^3 -y^2| values. Thirteen new values of k < x^(1/2) are reported., Comment: 9 pages, 1 figure

Published

2005

49. 3-Year Clinical Follow-Up of the RIBS IV Clinical Trial: A Prospective Randomized Study of Drug-Eluting Balloons Versus Everolimus-Eluting Stents in Patients With In-Stent Restenosis in Coronary Arteries Previously Treated With Drug-Eluting Stents

Author

Jiménez-Quevedo, P., Gonzalo, N., Escaned, J., Fernández-Ortiz, A., Macaya, C., García del Blanco, B., Goicolea, J., García-Touchard, A., López-Mínguez, J.R., Alfonso, F., Benedicto, A., Rivero, F., Masotti, M., Zueco, J., Iñiguez, A., Jiménez, V., Velázquez, T., Moreno, R., Mainar, V., Hernández, J.M., Domínguez, A., Pomar, F., Melgares, R., Cequier, A., Martí, V., Bethencourt, A., Moreu, J., Morís, C., del Valle, R., Sanchís, J., Urbano-Carrillo, C.A., Calvo, I., Ferrer, M.C., Vázquez, N., Alfonso, Fernando, Pérez-Vizcayno, María José, Cuesta, Javier, García del Blanco, Bruno, García-Touchard, Arturo, López-Mínguez, José Ramón, Masotti, Mónica, Zueco, Javier, Cequier, Angel, Velázquez, Maite, Moreno, Raúl, Mainar, Vicente, Domínguez, Antonio, Moris, Cesar, Molina, Eduardo, Rivero, Fernando, Jiménez-Quevedo, Pilar, Gonzalo, Nieves, and Fernández-Pérez, Cristina

Published

2018

50. Graphical patterns in quadratic residues

Author

Calvo, I. Jimenez

Subjects

Mathematics - Number Theory, 11A15

Abstract

Plots of quadratic residues display some features that are analyzed mathematically., Comment: 3 figures

Published

2004