Data and scripts from: Glassy, Gardner-like phenomenology in minimally polydisperse crystalline systems

Public

  • We report on a nonequilibrium phase of matter, the minimally disordered crystal phase, which we find exists between the maximally amorphous glasses and the ideal crystal. Even though these near crystals appear highly ordered, they display glassy and jamming features akin to those observed in amorphous solids. Structurally, they exhibit a power-law scaling in their probability distribution of weak forces and small interparticle gaps as well as a flat density of vibrational states. Dynamically, they display anomalous aging above a characteristic pressure. Quantitatively, this disordered crystal phase has much in common with the Gardner-like phase seen in maximally disordered solids. Near crystals should be amenable to experimental realizations in commercially available particulate systems and are to be indispensable in verifying the theory of amorphous materials. ... [Read More]

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11 files (92.3 MB)
Data Citation
  • Charbonneau, P., Corwin, E. I., Fu, L., Tsekenis, G., & van der Naald, M. (2019). Data and scripts from: Glassy, Gardner-like phenomenology in minimally polydisperse crystalline systems. Duke Digital Repository. https://doi.org/10.7924/r4k93500n
DOI
  • 10.7924/r4k93500n
Publication Date
ARK
  • ark:/87924/r4k93500n
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Format
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Funding Agency
  • Simons Foundation (Grants No. 454937 and No. 454939)
  • National Science Foundation (Grant No. DMR-1255370.)
  • National Science Foundation Research Triangle Materials Research Science and Engineering Center (Grant No. DMR-1121107)
  • NSF Nanomanufacturing Program (Grant No. CMMI-1363483)
Grant Number
  • Simons Foundation (Grants No. 454937 and No. 454939)
  • NSF Nanomanufacturing Program (Grant No. CMMI-1363483).
  • National Science Foundation Research Triangle Materials Research Science and Engineering Center (Grant No. DMR-1121107)
  • National Science Foundation (Grant No. DMR-1255370.)
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Title
  • Data and scripts from: Glassy, Gardner-like phenomenology in minimally polydisperse crystalline systems
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