| Loss and Dynamic Magnetic Field Measurements in LHC Dipoles (p. 31) |
| by Akhmedov, A A |
| Development of Superconducting Tuning Quadrupole Corrector (MQT) Prototypes for the LHC (p. 35) |
| by Allitt, M |
| R&D for a single-layer Nb$_{3}$Sn common coil dipole using the react-and-wind fabrication technique (p. 39) |
| by Ambrosio, G |
| Construction and measurement of the pre-series twin aperture resistive quadrupole magnet for the LHC beam cleaning insertions (p. 55) |
| by de Rijk, G |
| Quench performance and mechanical behavior of the first Fermilab- built prototype high gradient quadrupole for the LHC interaction regions (p. 59) |
| by Andreev, N |
| Post-LHC accelerator magnets (p. 67) |
| by Gourlay, S A |
| Interaction region magnets for VLHC (p. 81) |
| by Sen-Gupta, Ramesh |
| Field Decay and Snapback Measurements using a Fast Hall Plate Detector (p. 86) |
| by Benedico, E |
| Principles developed for the construction of the high performance, low-cost superconducting LHC corrector magnets (p. 90) |
| by Ijspeert, Albert |
| Principles Developed for the Construction of the High Performance, Low-cost Superconducting LHC corrector Magnets (p. 90) |
| by Allitt, M |
| Inner Triplet Corrector Package MQSXA for the LHC (p. 102) |
| by Karppinen, M |
| Superconducting superferric dipole magnet with cold iron core for the VLHC (p. 111) |
| by Foster, G W |
| The bending magnets for the LHC injection transfer lines (p. 120) |
| by Anashin, V |
| The Influence of Accelerator Physics on the Magnet Design of a Very Large Hadron Collider (p. 142) |
| by Bauer, P |
| Quench protection study of a prototype for the LHC low-beta quadrupole magnets (p. 170) |
| by Nakamoto, T |
| Fabrication and mechanical behavior of a prototype for the LHC low-$\beta$ quadrupole magnets (p. 174) |
| by Nakamoto, T |
| Fabrication And Mechanical Behavior Of A Prototype For The Lhc Low-beta Quadrupole Magnets (p. 174) |
| by Nakamoto, T |
| LHC interaction region quadrupole cryostat design and fabrication (p. 179) |
| by Nicol, T H |
| Status of the LHC low-$\beta$ insertion quadrupole magnet development at KEK (p. 183) |
| by Ogitsu, T |
| Magnetic field measurements of the prototype LHC-IR MQXA at 1.9 K (p. 188) |
| by Ohuchi, N |
| The LHC Insertion Magnets (p. 196) |
| by Ostojic, R |
| A Novel Idea for Coil Collar Structures in Accelerator Superconducting Magnets (p. 202) |
| by Fessia, P |
| Performance of the LHC Final Prototype and First Pre-series Superconducting Dipole Magnets (p. 211) |
| by Bottura, L |
| Magnetic field error analysis of a low- $\beta$ quadrupole magnet (p. 215) |
| by Qiu, M |
| State-of-the-art superconducting accelerator magnets (p. 219) |
| by Rossi, L |
| The coil of the MBI bending magnets for the LHC injection transfer lines (p. 228) |
| by Labutsky, S A |
| First Powering of the LHC Test String 2 (p. 232) |
| by Saban, R I |
| Status of $Nb_{3}$Sn accelerator magnet R&D (p. 236) |
| by Sabbi, G L |
| Measurement and Analysis of the Field Quality of LHC Prototype and Pre-series Superconducting Dipoles (p. 247) |
| by Aleksa, Martin |
| Training Quench Performance and Quench Location of the Short Superconducting Dipole Models for the LHC (p. 251) |
| by Sanfilippo, S |
| Field measurement of a Fermilab-built full scale prototype quadrupole magnet for the LHC interaction regions (p. 254) |
| by Bossert, R |
| Investigation of the Periodic Magnetic Field Modulation in LHC Superconducting Dipoles (p. 258) |
| by Pugnat, P |
| Test Results of the Third LHC Main Quadrupole Magnet Prototype at CEA/Saclay (p. 266) |
| by Derégel, J |
| Development Of Radiation-resistant Magnets For Jhf Project (p. 278) |
| by Tanaka, K H |
| Launching of Series Fabrication of the LHC Main Quadrupoles (p. 287) |
| by Burgmer, R |
| Degaussing and Decay Reduction in the Short Superconducting Dipole Models for the LHC (p. 291) |
| by Bottura, L |
| Field Quality of the Short Superconducting Dipole Models for the LHC (p. 295) |
| by Venturini-Delsolaro, W |
| Test results for prototypes of the twin aperture dipoles for the LHC insertion region (p. 309) |
| by Muratore, J |
| Development and test of single-bore $Cos \vartheta$ Nb$_3$Sn dipole models with cold iron yoke (p. 332) |
| by Andreev, N |
| The CMS conductor (p. 345) |
| by Blau, Bertrand |
| The winding line for the CMS reinforced conductor (p. 358) |
| by Fabbricatore, P |
| CMS coil thermal shields final design (p. 362) |
| by Fazilleau, P |
| Status of the LHCb magnet system (p. 366) |
| by André, J |
| Continuous EB welding of the reinforcement of the CMS conductor (p. 372) |
| by Folch, R |
| Mechanical behavior of the ATLAS B0 model coil (p. 376) |
| by Foussat, A |
| Critical current measurements on the CMS stabilized conductor (p. 381) |
| by Greco, Michela |
| Status of the CMS magnet (MT17) (p. 385) |
| by Hervé, A |
| CMS coil design and assembly (p. 395) |
| by Kircher, F |
| The Dipole Magnet Design for the ALICE DiMuon Arm Spectrometer (p. 399) |
| by Akishin, P G |
| Design and test of the titanium alloy tie rods for the CMS coil suspension system (p. 403) |
| by Levesy, B |
| Quench protection and safety of the ATLAS central solenoid (p. 407) |
| by Makida, Y |
| ATLAS B0 toroid model coil test at CERN (p. 411) |
| by Miele, P |
| Fabrication and mechanical performance of the ATLAS central solenoid (p. 416) |
| by Mizumaki, S |
| Manufacturing aspects of the ATLAS barrel toroid double pancakes (p. 420) |
| by Drago, G |
| Aluminum alloy production for the reinforcement of the CMS conductor (p. 424) |
| by Sequeira-Lopes-Tavares, S |
| Design, construction, and quality tests of the large Al-alloy mandrels for the CMS coil (p. 428) |
| by Sgobba, Stefano |
| Status of the ALICE magnet system (p. 432) |
| by Swoboda, Detlef |
| Electrical joints in the CMS superconducting magnet (p. 462) |
| by Farinon, S |
| Superconductor and cable R&D for high field accelerator magnets at Fermilab (p. 1009) |
| by Barzi, E |
| The superconducting strand for the CMS solenoid conductor (p. 1014) |
| by Curé, B |
| Measurements of interstrand thermal and electrical conductance in multistrand superconducting cables (p. 1052) |
| by Yuan Zhong Lei |
| Status of the LHC Superconducting Cable Mass Production (p. 1056) |
| by Adam, J D |
| Manufacturing of superconducting cable for the LHC-Key technology and statistical analysis (p. 1075) |
| by Shimada, T |
| Bond and electron beam welding quality control of the aluminum stabilized and reinforced CMS conductor by means of ultrasonic phased-array technology (p. 1199) |
| by Neuenschwander, J |
| Manufacturing experience for the LHC inner triplet quadrupole cables (p. 1203) |
| by Scanlan, R M |
| Production and qualification of 40 km of Al-stabilized NbTi cable for the ATLAS experiment at CERN (p. 1215) |
| by Baccaglioni, G |
| Toward the production of 50 000 tonnes of low-carbon steel sheet for the LHC superconducting dipole and quadrupole magnets (p. 1219) |
| by Babic, S |
| Towards the production of 50'000 tonnes of low-carbon steel sheet for the LHC superconducting dipole and quadrupole magnets (p. 1219) |
| by Babic, S |
| Development and study of insulation systems for Nb$_3$Sn accelerator magnets (p. 1227) |
| by Andreev, Nicolai I |
| Insulation systems for Nb$_{3}$Sn accelerator magnet coils manufactured by the "wind and react" technique (p. 1232) |
| by Devred, Arnaud |
| Development of non-magnetic high manganese cryogenic steel for the construction of LHC project's superconducting magnet (p. 1248) |
| by Ozaki, Y |
| Characteristics of the Austenitic Steels Used in the LHC Main Dipoles (p. 1252) |
| by Lanza, C |
| First Experience in the Mass Production of Components for the LHC Dipoles (p. 1256) |
| by Fessia, P |
| The standard Instrumentation Feedthrough System for the LHC cryo-magnets (p. 1269) |
| by Bozzini, D |
| Current Leads for the LHC Magnet System (p. 1275) |
| by Ballarino, A |
| 20.5 kA current leads for ATLAS Barrel Toroid superconducting magnets (p. 1289) |
| by Dudarev, A |
| Design and Manufacture of the Superconducting Bus-bars for the LHC Main Magnets (p. 1305) |
| by Belova, L M |
| Development of a 600 A HTS current lead using modular design (p. 1310) |
| by Scheller, L |
| 8-Ka Hts Current Leads For 1.9-k Test Facility At KEK (p. 1323) |
| by Bohno, T |
| First Cryogenic Testing of the ATLAS Superconducting Prototype Magnets (p. 1336) |
| by Delruelle, N |
| Parametric Quadrilateral Meshes for the Design and Optimization of Superconducting Magnets (p. 1404) |
| by Aleksa, Martin |
| The Multipoles Factory : An Element of the LHC Control(p. 1417) |
| by Amet, S |
| Contribution of iron yoke on helical coils for RHIC (p. 1479) |
| by Tominaka, T |
| Compensation of magnetization effects in superconducting accelerator magnets (p. 1492) |
| by Völlinger, Christine |
| Development and Manufacture of the Coil End Spacers of the LHC Pre-series Dipoles (p. 1496) |
| by Farina, E |
| The thermal and magnetic stress analyses of the ATLAS Barrel Toroid- B0 coil (p. 1515) |
| by Sun, Z |
| Transient Stability Analysis of the SeCRETS Experiment in SULTAN (p. 1524) |
| by Bottura, L |
| Application of the Code THEA to the CONDOPT Experiment in SULTAN (p. 1528) |
| by Bottura, L |
| The normal zone propagation in ATLAS B00 model coil (p. 1549) |
| by Boxman, E W |
| Simulation of the Effect of a Series of Superconducting Magnets on a Quenching Magnet using a Controlled Current Pulse (p. 1553) |
| by Hilaire, A |
| AC loss in a stack of flat superconducting cables (p. 1595) |
| by Akhmedov, A I |
| Magnetic Measurement of Alignment of Main LHC Dipoles and Associated Correctors (p. 1659) |
| by Bottura, L |
| Warm magnetic field measurements of prototype low- beta quadrupole magnet MQXA for the LHC interaction regions (p. 1663) |
| by Hirano, H |
| A Tool for Simulating Rotating Coil Magnetometers (p. 1680) |
| by Bottura, L |
| The Measurement Bench for the LHC Spool Corrector Magnets in Industry (p. 1684) |
| by Arn, A |
| A System for Series Magnetic Measurements of the LHC Main Quadrupoles (p. 1688) |
| by Smirnov, N |
| Analytical calculation of field error due to radial coil distortions of the LHC low-beta quadrupole magnets (p. 1693) |
| by Sugita, K |
| Modeling of Coil Pre-stress Loss During Cool-down in the Main Dipoles of the Large Hadron Collider (p. 1705) |
| by Ferracin, P |
| Analysis of Conductor Displacements in the Coil of the LHC Main Dipole by Speckle Interferometry (p. 1709) |
| by Ferracin, P |
| Influence of geometrical parameters on the flexural rigidity of the LHC dipole cold mass assembly (p. 1713) |
| by Bajko, M |
| Metrology of the LHC Dipole Cold Masses (p. 1718) |
| by Bajkó, M |
| Analysis of lamination measurements for CERN's twin aperture quadrupoles (p. 1723) |
| by Clark, G S |
| Impact of Coil Deformations on Field Quality in the Large Hadron Collider Main Dipole (p. 1727) |
| by Ferracin, P |
| A Novel Device for the Measurement of the Mechanical and Magnetic Axes of Superconducting Magnet Assemblies for Accelerators (p. 1731) |
| by Aznar, S |
| Optical In-Situ Measurement of Relative Deformations of the LHC Main Dipole Cold Masses (p. 1736) |
| by Aznar, S |
