Propagation and backscattering of soliton-like pulses in a chain of quartz beads and related problems. (II). Backscattering

Marian Manciu; Surajit Sen; Alan J. Hurd

doi:10.1016/S0378-4371(99)00372-6

Propagation and backscattering of soliton-like pulses in a chain of quartz beads and related problems. (II). Backscattering

Marian Manciu
, Surajit Sen
, Alan J. Hurd

Physics

SUNY Buffalo
Sandia National Laboratories, New Mexico

Research output: Contribution to journal › Article › peer-review

49 Scopus citations

Abstract

We demonstrate that the propagation of solitons, soliton-like excitations and acoustic pulses discussed in the preceding article (M. Manciu, S. Sen and A.J. Hurd, Physica A, preceding article) can be used to detect buried impurities in a chain of elastic grains with Hertzian contacts. We also present preliminary data for 3D granular beds, where soliton-like objects can form and can be used to probe for buried impurities, thus suggesting that soliton-pulse spectroscopy has the potential to become a valuable tool for probing the structural properties of granular assemblies. The effects of restitution are briefly discussed. We refer to available experiments which support our contention.

Original language	English
Pages (from-to)	607-618
Number of pages	12
Journal	Physica A: Statistical Mechanics and its Applications
Volume	274
Issue number	3
DOIs	https://doi.org/10.1016/S0378-4371(99)00372-6
State	Published - Dec 15 1999

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title = "Propagation and backscattering of soliton-like pulses in a chain of quartz beads and related problems. (II). Backscattering",

abstract = "We demonstrate that the propagation of solitons, soliton-like excitations and acoustic pulses discussed in the preceding article (M. Manciu, S. Sen and A.J. Hurd, Physica A, preceding article) can be used to detect buried impurities in a chain of elastic grains with Hertzian contacts. We also present preliminary data for 3D granular beds, where soliton-like objects can form and can be used to probe for buried impurities, thus suggesting that soliton-pulse spectroscopy has the potential to become a valuable tool for probing the structural properties of granular assemblies. The effects of restitution are briefly discussed. We refer to available experiments which support our contention.",

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AU - Manciu, Marian

AU - Sen, Surajit

AU - Hurd, Alan J.

PY - 1999/12/15

Y1 - 1999/12/15

N2 - We demonstrate that the propagation of solitons, soliton-like excitations and acoustic pulses discussed in the preceding article (M. Manciu, S. Sen and A.J. Hurd, Physica A, preceding article) can be used to detect buried impurities in a chain of elastic grains with Hertzian contacts. We also present preliminary data for 3D granular beds, where soliton-like objects can form and can be used to probe for buried impurities, thus suggesting that soliton-pulse spectroscopy has the potential to become a valuable tool for probing the structural properties of granular assemblies. The effects of restitution are briefly discussed. We refer to available experiments which support our contention.

AB - We demonstrate that the propagation of solitons, soliton-like excitations and acoustic pulses discussed in the preceding article (M. Manciu, S. Sen and A.J. Hurd, Physica A, preceding article) can be used to detect buried impurities in a chain of elastic grains with Hertzian contacts. We also present preliminary data for 3D granular beds, where soliton-like objects can form and can be used to probe for buried impurities, thus suggesting that soliton-pulse spectroscopy has the potential to become a valuable tool for probing the structural properties of granular assemblies. The effects of restitution are briefly discussed. We refer to available experiments which support our contention.

UR - https://www.scopus.com/pages/publications/0033323973

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JO - Physica A: Statistical Mechanics and its Applications

JF - Physica A: Statistical Mechanics and its Applications

IS - 3

ER -

Propagation and backscattering of soliton-like pulses in a chain of quartz beads and related problems. (II). Backscattering

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