Results 141 to 150 of about 3,308,332 (358)
Oxford University Press : Review of Particle Physics, 2020-2021
, 2020 P. Żyła, P. Richardson, O. Zenin, A. Bettini, L. Garren, Vorobyev, D. Groom, M. Kenzie, G. Zanderighi, M. Karliner, D. Chakraborty, D. Asner, V. Khoze, T. Sjöstrand, J. Beringer, A. Godizov, S. Bethke, V. Petrov, L. Verde, G. Gerbier, B. Allanach, R. Kowalewski, P. Nason, S. Stone, Y. Sakai, J. Holder, O. Schneider, E. Pianori, M. Silari, K. Olive, A. Cerri, H. Gerber, A. Gouvea, R. Workman, R. Ryutin, K. Rabbertz, V. S. Lugovsky, T. Mannel, F. Moortgat, M. Sozzi, A. Vogt, F. Sauli, M. Mikhasenko, C. Hanhart, T. Sumiyoshi, B. Ratcliff, J. Anderson, H. Baer, J. Matthews, H. Gallagher, M. Gonzalez-Garcia, T. DeGrand, A. Soffer, A. Hocker, W. Yao, R. Yoshida, M. Antonelli, A. Quadt, J. Tanaka, G. Venanzoni, Y. Hayato, J. Schwiening, G. D’Ambrosio, U. Thoma, K. S. Lugovsky, M. Ryskin, G. Rybka, H. Haber, M. Neubert, M. Ramsey-Musolf, W. Marciano, K. Hikasa, Burkert, P. Skands, S. Navas, M. Syphers, J. Hernández-Rey, D. Wands, A. Schwartz, A. Freitas, G. Aielli, Z. Ligeti, A. Ringwald, P. Nevski, T. Shutt, D. Robinson, J. Rosner, T. Hyodo, V. Belousov, A. Masoni, O. Buchmuller, D. Scott, C. Spiering, D. Weinberg, B. Fields, G. Zeller, M. Bychkov, C. Wohl, E. Aschenauer, K. Black, D. Dwyer, M. Drees, C. Grab, S. Banerjee, L. Rosenberg, M. Goodman, G. Smoot, D. Milstead, B. Heltsley, L. Tiator, T. Gutsche, N. P. Tkachenko, D. Florian, G. Raffelt, F. Zimmermann, J. Rademacker, S. Rolli, Sharma, C. Grojean, Ezhela, M. Tanabashi, L. Baudis, C. Amsler, J. Lesgourgues, T. Basaglia, J. Erler, C. Woody, J. Huston, K. Mönig, A. Pomarol, Y. Gershtein, J. Terning, P. Urquijo, L. Wiencke, D. Tovey, A. Lusiani, J. Ellis, K. Johnson, A. Piepke, R. Barnett, E. Klempt, S. Petcov, S. Profumo, A. Stahl, R. Thorne, P. Eerola, Y. Kwon, M. Vincter, S. Sarkar, C. Patrignani, M. White, R. Zhu, F. Maltoni, G. Dissertori, Y. Sumino, C. Lourengo, M. D’Onofrio, B. Krusche, H. Dreiner, F. Krauss, M. Narain, N. Varelas, W. Walkowiak, G. Salam, C. Bauer, W. Vogelsang, A. Ceccucci, S. Roesler, D. Miller, J. Hisano, A. Pich, K. Terashi, M. Titov, O. Lahav, W. Zheng, U. Egede, B. Dobrescu, M. Carena, M. Kado, O. Dahl, M. Moskovic, M. Grünewald, A. Gurtu, M. Yokoyama, S. Heinemeyer, S. Sharpe, T. Liss, S. Wakely, S. Eidelman, T. Gershon, U. Meissner, R. Cahn, P. Vogel, E. Weinberg, M. Wascko, R. Mitchell, G. Cowan, T. Gherghetta, A. Gritsan, S. Willocq, S. Hashimoto, A. Holtkamp, L. Littenberg, M. Kreps, P. Molaro, W. Fetscher, R. Chivukula, E. Blucher, A. Romaniouk, P. Jong, B. Foster, S. Lugovsky, S. L. Zhu, K. Scholberg, R. D. Water, T. Skwarnicki, S. Spanier, P. Schaffner, H. Ramani, A. Liddle, M. Tasevsky, G. Valencia, Y. Nir, C. Walter, C. Lippmann, J. Laiho, O. Biebel, T. Damour, U. Katz, A. Manohar, J. Beatty, K. Agashe, Y. Makida, K. Trabelsi, S. Klein, J. Peacock, M. Doser, F. Takahashi, Chen Lin, A. Hebecker, K. Nakamura, L. Lellouch +241 moresemanticscholar +1 more sourceWafer Bonding Technologies for Microelectromechanical Systems and 3D ICs: Advances, Challenges, and Trends
Advanced Engineering Materials, EarlyView.This review explores wafer bonding technologies, covering wafer preparation, activation methods, and bonding mechanisms. It compares direct and indirect bonding, highlights recent advancements and future trends, and examines applications in 3D integration and packaging.Abdul Ahad Khan, Tuan‐Khoa Nguyen, Quang Thang Trinh, Nam‐Trung Nguyen, Dzung Viet Dao, Yong Zhu +5 morewiley +1 more sourceCrystal‐Symmetry‐Driven Build Orientation and its Impact on the {110}<100> Goss Texture Formation and Mechanical Properties of Laser Powder Bed Fused AISI 316L
Advanced Engineering Materials, EarlyView.This study explores a crystal‐symmetry‐based approach to optimize mechanical properties in laser powder bed fused AISI 316L with predominant {110}<100> Goss textures. By varying the build orientation, the microstructure can be tailored and the tensile properties optimized. The tilted build (T110) achieved the highest strength while preserving ductility,Daniel Rainer, Jithin James Marattukalam, Dennis Karlsson, Přemysl Beran, Charles Hervoches, Gabriella Andersson, Prabhat Pant, Martin Sahlberg +7 morewiley +1 more sourceATLAS W path – real data from the LHC for high school students
EPJ Web of Conferences, 2014 ATLAS W path is an educational scenario developed for high school students. They are introduced to basic concepts of particle identification and event classification. Students work with event displays from experimental data taken at the ATLAS detector. A Bilow Uta, Hasterok Constanze, Jende Konrad, Kobel Michael, Rudolph Christian, Woithe Julia +5 moredoaj +1 more sourceW‐Based Thin Film Metallic Glasses Doped with Ni, Zr, and B for Industrial Applications
Advanced Engineering Materials, EarlyView.This work is the first to deal with a comprehensive comparison of two metallic glass systems, W–Zr–B and W–Ni–B, in terms of their suitability for specific industrial applications. Their mechanical and tribological properties are compared and discussed in combination with structural homogeneity on different types of technically relevant substrates and ...Zbynek Studeny, Antonin Kubicek, Vjaceslav Sochora, Zdenek Pokorny, Stanislava Debnárová, Pavel Soucek +5 morewiley +1 more sourceLavrentiev: Some Improperly Posed Problems of Math. Physics/Watson u. Nuttall: Topics in Several Particle Dynamics/Heim: Schaltungsalgebra/Magnus, Karrass und Solitar: Combinatorial Group Theory/Migdal: Theory of Finite Fermi Systems and Applications to Atomic Nuclei/Irodov: A Collection of Problems in Atomic & Nuclear Physics/IAEA: Photonuclear Reactions/Brown: Introduction to Electrical Discharges in Gases/Nozdrev: The Use of Ultrasonics in Molecular Physics/Sovran: Fluid Mechanics of … [PDF]
, 1968 K. Strubecker, H. Rittwagen, Wilhelm Brenig, W. Kofink, W. Hanle, H. Zwicker, W. Kofink, E. Eric Adams, G. Feix, D. Lilienthal, H. Gärtner, W. Kliefoth, Karl Nickel, Hans Israël +13 moreopenalex +1 more sourceCALPHAD‐Guided Prediction and Interpretation of Phase Formation in Ta–Mo–Cr–Ti–Al Refractory High‐Entropy Alloys
Advanced Engineering Materials, EarlyView.This study designs Ta–Mo–Cr–Ti–Al refractory high‐entropy alloys with a disordered body‐centered‐cubic A2 crystal structure aiming for improved ductility, lower density, and oxidation resistance. Four alloy compositions are identified by thermodynamic calculations.Kateryna Khanchych, Chongchong Tang, Carsten Schroer, Björn Schäfer, Judith Jung, Michael Dürrschnabel, Ute Jäntsch, Bronislava Gorr +7 morewiley +1 more source
