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                  The Centre for Molecular and Materials Science (CMMS) provides unique tools for Canadian and international scientists to better understand matter at the microscopic level. We provide intense spin-polarized beams of muons (µ+ or µ) and lithium-8 (8Li), which are implanted into a material and characterized with novel magnetic resonance techniques known as µSR (muon spin rotation / relaxation / resonance) and βNMR (beta-detected nuclear magnetic resonance). µSR and βNMR can provide unique information about a wide range of materials (magnetic systems, superconductors, semiconductors, batteries and free radicals) that is unavailable with conventional spectroscopic methods.

                  能上picacg的梯子

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                  Coexistence of metallic and nonmetallic properties in the pyrochlore Lu2Rh2O7
                  A. M. Hallas et al.
                  npj Quantum Materials 4, 9 (2019). 10.1038/s41535-019-0148-1

                  Incommensurate Magnetism Near Quantum Criticality in CeNiAsO
                  Shan Wu et al.
                  Phys. Rev. Lett. 122 197203 (2019), doi 10.1103/PhysRevLett.122.197203

                  Magnetic moment of rare-earth elements in R2Fe14B estimated with µ+SR
                  Jun Sugiyama et al.
                  Phys. Rev. Materials 3, 064402 (2019)

                  Freezing out of a low-energy bulk spin exciton in SmB6
                  K. Akintola et al.
                  npj Quantum Materials, volume 3, Article number: 36 (2018)

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                  TRIUMF, µSR and βNMR

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                  Facility Resources

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                  能上picacg的梯子

                  Centre for Molecular and Materials Science
                  TRIUMF
                  4004 Wesbrook Mall
                  Vancouver, B.C. Canada V6T 2A3