Design of 12.5 kA current leads for the Large Hadron Collider using high temperature superconductor material

The Large Hadron Collider will be equipped with about 8000 superconducting magnets. Some 2600 current leads will feed the currents ranging from 25 to 12500 A. CERN aims to reduce the consumption of liquid helium, using high temperature superconductors in these leads. A development of leads for 12.5 kA is being conducted in collaboration with Oxford Instruments. The design options for these leads are described. A test rig and prototype lead have been made according to one of the options. Electrical contact tests are in progress on BSCCO-2212 and YBCO-123 samples. In the first run, the prototype carried 13000 A

Company ‘Emigration’ and EC Freedom of Establishment: Daily Mail Revisited

Following the ECJ’s recent case law on EC freedom of establishment (the Centros, Überseering and Inspire Art cases), regulatory competition for corporate law within the European Union takes place at an early stage of the incorporation of new companies. In contrast, as regards the ‘moving out’ of companies from the country of incorporation, the ECJ once considered a tax law restriction against the transfer abroad of a company’s administrative seat as compatible with EC freedom of establishment (the Daily Mail case). For years, this decision has been regarded as applicable to all restrictions imposed by countries of incorporation, even the forced liquidation of the ‘emigrating’ company. This paper addresses the question whether EC freedom of establishment really allows Member States to place any limit on the ‘emigration’ of nationally registered companies. It argues that EC freedom of establishment covers the transfer of the administrative seat as well as the transfer of the registered office and, therefore, that the country of incorporation cannot liquidate ‘emigrating’ companies. In addition, it addresses the question whether a new Directive is needed to allow the transfer of a com- pany’s registered office and the identity-preserving company law changes. It argues that such a Directive is necessary to avoid legal uncertainty and to protect the interests of employees, creditors and minority shareholders, among others, who could be detrimentally affected by the ‘emigration’ of national companies

Relación entre el valor del ratio elastográfico y la clasificación citológica de Bethesda en la patología tiroidea

ResumenObjetivoPresentar nuestra experiencia en la categorización de la patología tiroidea, a través de la utilización de parámetros ecográficos de malignidad y elastografía con medición del ratio de la deformación tisular, y la correlación de los hallazgos obtenidos con la clasificación citológica de Bethesda.Materiales y métodosSe llevó a cabo un estudio prospectivo y observacional, entre septiembre de 2012 y abril de 2013, que incluyó 137 nódulos tiroideos. Se excluyeron 10 casos Bethesda III-IV. Se realizó ecografía, power Doppler, visualización de micropartículas (Micropure) y elastografía con medición del ratio elastográfico, así como también punción aspirativa con aguja fina guiada por ecografía (con el citólogo presente), utilizando la clasificación Bethesda. Los estudios fueron hechos por el mismo operador con un ecógrafo Toshiba Aplio 400 y los datos estadísticos se evaluaron con el programa IBM SPSS Statistics 20.ResultadosSe estudiaron 127 nódulos en pacientes con una edad promedio de 59±16 años. El 82% de los casos ocurrió en mujeres. Ciento veinte nódulos (94%) fueron clasificados como Bethesda II. La media elastográfica para Bethesda I-II fue de 1,94±2,12 vs. 7,07±5,46 para V-VI (p: 0,048). El punto de corte elastográfico ≤ 2 (87 de 127) presentó una sensibilidad del 85,7% y una especificidad del 81,7% para predecir Bethesda asociada a patología benigna, con un valor predictivo negativo (VPN) del 99% y un valor predictivo positivo del 15%.ConclusionesEl ratio elastográfico permitió descartar la patología tiroidea maligna con valores ≤ 2 y un VPN del 99%, mejorando la selección de los pacientes a punzar. El incremento del ratio elastográfico se asoció a una mayor probabilidad de patología maligna, aunque no se pudo establecer un valor de corte debido al bajo número de casos con Bethesda V-VI.AbstractObjectivesWe present our experience in the categorization of thyroid pathology using the sonographic parameters of malignancy and elastography with measurement elastography strain ratio, to evaluate the relationship between the results found and the Bethesda classification.Materials and methodsProspective observational study, included 137 thyroid nodules studied between September 2012- April 2013. We excluded 10 cases with Bethesda categories III-IV. Ultrasonography, Doppler, Micropure, elastogrphy strain ratio between the lesion and the normal tissue, fine needle aspiration cytology (FNAC),were the diagnosis methods used. The pathologist was always present and the cytological classi fication of Bethesda was used. All study was made by the same physician used Toshiba Aplio 400 ultrasound unit. Results were analyzed with IBM SPSS Statistics 20.ResultsWe studied 127 nodules in patients 59±16 years old, 82% were female; 120 were Bethesda II (94%). The average strain ratio for nodules Bethesda I-II was 1.94±2.12 vs. 7.07±5.46 for those nodules Bethesda V-VI (p:0,048). This means that an elastography strain ratio ≤ 2 (87 of 127 nodules) has a sensibility of 85.7% and a specificity of 81.7% of predicting Bethesda associated with benign pathology with a negative predictive value (NPV) of 99% and a positive predictive value of 15%.ConclusionThe elastography strain ratio allowed to discard malignant nodules with strain ratio ≤ 2 with a NPV of 99% improves the selection of patients for FNAC. The increment in the elastography strain ratio was associated to a higher possibility of malignant thyroid pathology, being unable to determine a limit value due to the low amount of cases with nodules Bethesda V-VI

Intronic determinants coordinate charme lncRNA nuclear activity through the interaction with MATR3 and PTBP1

Chromatin architect of muscle expression (Charme) is a muscle-restricted long noncoding RNA (lncRNA) that plays an important role in myogenesis. Earlier evidence indicates that the nuclear Charme isoform, named pCharme, acts on the chromatin by assisting the formation of chromatin domains where myogenic transcription occurs. By combining RNA antisense purification (RAP) with mass spectrometry and loss-of-function analyses, we have now identified the proteins that assist these chromatin activities. These proteins—which include a sub-set of splicing regulators, principally PTBP1 and the multifunctional RNA/DNA binding protein MATR3—bind to sequences located within the alternatively spliced intron-1 to form nuclear aggregates. Consistent with the functional importance of pCharme interactome in vivo, a targeted deletion of the intron-1 by a CRISPR-Cas9 approach in mouse causes the release of pCharme from the chromatin and results in cardiac defects similar to what was observed upon knockout of the full-length transcript

Second-Generation Coil Design of the Nb3Sn low-β Quadrupole for the High Luminosity LHC

As part of the Large Hadron Collider (LHC) Luminosity upgrade program, the U.S.-LHC Accelerator Research Program collaboration and CERN are working together to design and build a 150-mm aperture Nb3Sn quadrupole for the LHC interaction regions. A first series of 1.5-m-long coils was fabricated and assembled in a first short model. A detailed visual inspection of the coils was carried out to investigate cable dimensional changes during heat treatment and the position of the windings in the coil straight section and in the end region. The analyses allow identifying a set of design changes which, combined with a fine tune of the cable geometry and a field quality optimization, were implemented in a new second-generation coil design. In this paper, we review the main characteristics of the first generation coils, describe the modification in coil layout and discuss their impact on parts design and magnet analysis

Conceptual Design of the LHC Interaction Region Upgrade: Phase-I

The LHC is starting operation with beam. The primary goal of CERN and the LHC community is to ensure that the collider is operated efficiently and that it achieves nominal performance in the shortest term. Since several years the community has been discussing the directions for maximizing the physics reach of the LHC by upgrading the experiments, in particular ATLAS and CMS, the LHC machine and the CERN proton injector complex, in a phased approach. The first phase of the LHC interaction region upgrade was approved by Council in December 2007. This phase relies on the mature Nb-Ti superconducting magnet technology with the target of increasing the LHC luminosity to 2 to 3 10^34 cm^-2s^-1, while maximising the use of the existing infrastructure. In this report, we present the goals and the proposed conceptual solutions for the LHC IR Upgrade Phase-I which include the recommendations of the conceptual design review

Analysis of Fe(Se,Te) Films Deposited On Unbuffered Invar 36

In this paper, the feasibility of producing Fe(Se,Te)-coated conductors on cost-effective, unbuffered Invar 36 substrates is studied. A suitable substrate with a sharp 001 texture and a misorientation angle lower than 10\ub0 was developed, and the possibility of growing epitaxial thin films without any buffer layer was demonstrated. It was also shown that the presence of a Fe(Se,Te) seed layer can improve the in- and out-of-plane orientation of the film. A high-resolution scanning electron microscopy study was performed, and the absence of a superconducting transition has been attributed to Ni poisoning based on X-ray microanalysis

Progress on HL-LHC Nb3Sn Magnets

The high-luminosity Large Hadron Collider (HL-LHC) project aims at allowing to increase the collisions in the LHC by a factor of ten in the decade 2025-2035. One essential element is the superconducting magnet around the interaction region points, where the large aperture magnets will be installed to allow to further reduce the beam size in the interaction point. The core of this upgrade is the Nb Sn triplet, made up of 150-mm aperture quadrupoles in the range of 7-8 m. The project is being shared between the European Organization for Nuclear Research and the US Accelerator Upgrade Program, based on the same design, and on the two strand technologies. The project is ending the short model phase, and entering the prototype construction. We will report on the main results of the short model program, including the quench performance and field quality. A second important element is the 11 T dipole that replaces a standard dipole making space for additional collimators. The magnet is also ending the model development and entering the prototype phase. A critical point in the design of this magnet is the large current density, allowing increase of the field from 8 to 11 T with the same coil cross section as in the LHC dipoles. This is also the first two-in-one Nb Sn magnet developed so far. We will report the main results on the test and the critical aspects. 3