Embedded active vibration cancellation of a piston-driven cryocooler for nuclear spectroscopy applications

William Johnson; Rose Long; Mark Nelson; David Mascareñas

doi:10.1007/978-1-4614-2425-3_34

Embedded active vibration cancellation of a piston-driven cryocooler for nuclear spectroscopy applications

William Johnson, Rose Long, Mark Nelson, David Mascareñas

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

7 Scopus citations

Abstract

High Purity Germanium (HPGe) Detectors are the gold-standard sensor for nuclear spectroscopy applications. In order to make spectroscopic measurements, the detectors must be maintained at cryogenic temperatures. Cryogenic temperatures can be achieved using either liquid nitrogen or piston driven cryocoolers. Because of the bulky and transient nature of liquid nitrogen, the piston driven cryocoolers are preferable for remote, long term, or portable detector applications. These cryocoolers are a promising alternative due to the fact they only require a power source and heat dissipation for continuous operation. A major drawback however is that microphonic noise induced by the vibration of the piston reduces the resolution of the spectroscopic measurements. Passive damping techniques have been applied to this problem, An active damping control system is under development to significantly reduce the vibrations of the cryocooler by adapting to changes in boundary conditions and mass loading through time. Mitigating these vibrations will increase the resolution of portable HPGe detectors and facilitate the identification of nuclear materials.

Original language	English
Title of host publication	Topics in Modal Analysis I - Proceedings of the 30th IMAC, A Conference on Structural Dynamics, 2012
Pages	377-384
Number of pages	8
DOIs	https://doi.org/10.1007/978-1-4614-2425-3_34
State	Published - 2012
Externally published	Yes
Event	30th IMAC, A Conference on Structural Dynamics, 2012 - Jacksonville, FL, United States Duration: 30 Jan 2012 → 2 Feb 2012

Publication series

Name	Conference Proceedings of the Society for Experimental Mechanics Series
Volume	5
ISSN (Print)	2191-5644
ISSN (Electronic)	2191-5652

Conference

Conference	30th IMAC, A Conference on Structural Dynamics, 2012
Country/Territory	United States
City	Jacksonville, FL
Period	30/01/12 → 2/02/12

Access to Document

10.1007/978-1-4614-2425-3_34

Cite this

Johnson, W., Long, R., Nelson, M., & Mascareñas, D. (2012). Embedded active vibration cancellation of a piston-driven cryocooler for nuclear spectroscopy applications. In Topics in Modal Analysis I - Proceedings of the 30th IMAC, A Conference on Structural Dynamics, 2012 (pp. 377-384). (Conference Proceedings of the Society for Experimental Mechanics Series; Vol. 5). https://doi.org/10.1007/978-1-4614-2425-3_34

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title = "Embedded active vibration cancellation of a piston-driven cryocooler for nuclear spectroscopy applications",

abstract = "High Purity Germanium (HPGe) Detectors are the gold-standard sensor for nuclear spectroscopy applications. In order to make spectroscopic measurements, the detectors must be maintained at cryogenic temperatures. Cryogenic temperatures can be achieved using either liquid nitrogen or piston driven cryocoolers. Because of the bulky and transient nature of liquid nitrogen, the piston driven cryocoolers are preferable for remote, long term, or portable detector applications. These cryocoolers are a promising alternative due to the fact they only require a power source and heat dissipation for continuous operation. A major drawback however is that microphonic noise induced by the vibration of the piston reduces the resolution of the spectroscopic measurements. Passive damping techniques have been applied to this problem, An active damping control system is under development to significantly reduce the vibrations of the cryocooler by adapting to changes in boundary conditions and mass loading through time. Mitigating these vibrations will increase the resolution of portable HPGe detectors and facilitate the identification of nuclear materials.",

author = "William Johnson and Rose Long and Mark Nelson and David Mascare{\~n}as",

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doi = "10.1007/978-1-4614-2425-3_34",

language = "English",

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series = "Conference Proceedings of the Society for Experimental Mechanics Series",

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note = "30th IMAC, A Conference on Structural Dynamics, 2012 ; Conference date: 30-01-2012 Through 02-02-2012",

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Johnson, W, Long, R, Nelson, M & Mascareñas, D 2012, Embedded active vibration cancellation of a piston-driven cryocooler for nuclear spectroscopy applications. in Topics in Modal Analysis I - Proceedings of the 30th IMAC, A Conference on Structural Dynamics, 2012. Conference Proceedings of the Society for Experimental Mechanics Series, vol. 5, pp. 377-384, 30th IMAC, A Conference on Structural Dynamics, 2012, Jacksonville, FL, United States, 30/01/12. https://doi.org/10.1007/978-1-4614-2425-3_34

Embedded active vibration cancellation of a piston-driven cryocooler for nuclear spectroscopy applications. / Johnson, William; Long, Rose; Nelson, Mark et al.
Topics in Modal Analysis I - Proceedings of the 30th IMAC, A Conference on Structural Dynamics, 2012. 2012. p. 377-384 (Conference Proceedings of the Society for Experimental Mechanics Series; Vol. 5).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - High Purity Germanium (HPGe) Detectors are the gold-standard sensor for nuclear spectroscopy applications. In order to make spectroscopic measurements, the detectors must be maintained at cryogenic temperatures. Cryogenic temperatures can be achieved using either liquid nitrogen or piston driven cryocoolers. Because of the bulky and transient nature of liquid nitrogen, the piston driven cryocoolers are preferable for remote, long term, or portable detector applications. These cryocoolers are a promising alternative due to the fact they only require a power source and heat dissipation for continuous operation. A major drawback however is that microphonic noise induced by the vibration of the piston reduces the resolution of the spectroscopic measurements. Passive damping techniques have been applied to this problem, An active damping control system is under development to significantly reduce the vibrations of the cryocooler by adapting to changes in boundary conditions and mass loading through time. Mitigating these vibrations will increase the resolution of portable HPGe detectors and facilitate the identification of nuclear materials.

AB - High Purity Germanium (HPGe) Detectors are the gold-standard sensor for nuclear spectroscopy applications. In order to make spectroscopic measurements, the detectors must be maintained at cryogenic temperatures. Cryogenic temperatures can be achieved using either liquid nitrogen or piston driven cryocoolers. Because of the bulky and transient nature of liquid nitrogen, the piston driven cryocoolers are preferable for remote, long term, or portable detector applications. These cryocoolers are a promising alternative due to the fact they only require a power source and heat dissipation for continuous operation. A major drawback however is that microphonic noise induced by the vibration of the piston reduces the resolution of the spectroscopic measurements. Passive damping techniques have been applied to this problem, An active damping control system is under development to significantly reduce the vibrations of the cryocooler by adapting to changes in boundary conditions and mass loading through time. Mitigating these vibrations will increase the resolution of portable HPGe detectors and facilitate the identification of nuclear materials.

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Johnson W, Long R, Nelson M, Mascareñas D. Embedded active vibration cancellation of a piston-driven cryocooler for nuclear spectroscopy applications. In Topics in Modal Analysis I - Proceedings of the 30th IMAC, A Conference on Structural Dynamics, 2012. 2012. p. 377-384. (Conference Proceedings of the Society for Experimental Mechanics Series). doi: 10.1007/978-1-4614-2425-3_34

Embedded active vibration cancellation of a piston-driven cryocooler for nuclear spectroscopy applications

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