Institution
Atomic Energy of Canada Limited
Company•Ottawa, Ontario, Canada•
About: Atomic Energy of Canada Limited is a company organization based out in Ottawa, Ontario, Canada. It is known for research contribution in the topics: Neutron & Zirconium alloy. The organization has 4845 authors who have published 4826 publications receiving 102951 citations.
Topics: Neutron, Zirconium alloy, Scattering, Hydrogen, Zirconium
Papers published on a yearly basis
Papers
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TL;DR: In this paper, a 5 × 5 rod assembly with a split-type spacer grid is simulated with ANSYS Fluent 14 using unsteady simulations with a fully conformal hybrid mesh (wall y + ∼30).
34 citations
TL;DR: In this article, a comprehensive analysis of the effects of temperature, dose rate and particle type on multi-phenomena (swelling, creep, growth, microstructure evolution, RED, RIS) is presented to discuss the strength and weakness of various models.
34 citations
TL;DR: In this paper, a description of the use of Li-drifted Ge detectors for high-resolution gamma spectroscopy is given, where the photon is used in the following manner: the photon enters the detector and annihilates into an electron-positron pair; the annihilation quanta escape from the detector; and the total energy of the electron and positron pair is lost in the detector.
34 citations
34 citations
TL;DR: In this article, the magnetic properties of Mn-Zn alloys were investigated and the following superlattices were confirmed: α'-MnZn 3 is of the Cu 3 Au type, e '-MnN 3 of the Ni 3 Sn type, and β 1 -MnCl type.
Abstract: Neutron diffraction measurements were made on Mn-Zn alloys in order to investigate the magnetic structures and the atomic superlattice structures. The following superlattices were confirmed: α'-MnZn 3 is of the Cu 3 Au type, e '-MnZn 3 of the Ni 3 Sn type, and β 1 -MnZn of the CsCl type. Crystallographic and magnetic structures of β-Mn 3 Zn 2 are similar to thoes of β 1 -MnZn. Both e '-MnZn 3 and β 1 -MnZn exhibit a spontaneous magnetization at room temperature. It seems that the former is simply ferromagnetic while the latter has an angular arrangement of the magnetic moments. An antiferromagnetic structure of α'-MnZn 3 at low temperatures is associated with a tetragonal distortion of the lattice, in which the magnetic moments in a c -plane are parallel to each other and antiparallel to those in adjacent c -planes.
34 citations
Authors
Showing all 4845 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Henry P. Schwarcz | 78 | 351 | 20863 |
| Jonathan N. Glickman | 72 | 172 | 24025 |
| Andrej Atrens | 69 | 417 | 21741 |
| See Leang Chin | 67 | 460 | 17181 |
| Purnendu K. Dasgupta | 62 | 506 | 16779 |
| John Katsaras | 55 | 220 | 9263 |
| Jing-Li Luo | 55 | 436 | 10963 |
| Charles Gale | 53 | 331 | 10903 |
| Sanjoy Banerjee | 52 | 229 | 8880 |
| Yoshio Takahashi | 50 | 403 | 9801 |
| Peter Sigmund | 49 | 220 | 11795 |
| Michael P. Païdoussis | 46 | 165 | 8825 |
| Wei-Kan Chu | 46 | 445 | 8616 |
| A. G. W. Cameron | 45 | 123 | 10111 |
| Erland M. Schulson | 44 | 245 | 6966 |