R. Bossert scite author profile

R. Bossert

5Publications

6Citation Statements Received

16Citation Statements Given

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Fermilab

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Cryogenic system for the Cryomodule Test Facility at Fermilab

White

Martinez

Bossert

et al. 2014

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Abstract. This paper provides an overview of the current progress and near-future plans for the cryogenic system at the new Cryomodule Test Facility (CMTF) at Fermilab, which includes the helium compressors, refrigerators, warm vacuum compressors, gas and liquid storage, and a distribution system. CMTF will house the Project X Injector Experiment (PXIE), which is the front end of the proposed Project X. PXIE includes one 162.5 MHz half wave resonator (HWR) cryomodule and one 325 MHz single spoke resonator (SSR) cryomodule. Both cryomodules contain superconducting radio-frequency (SRF) cavities and superconducting magnets operated at 2.0 K. CMTF will also support the Advanced Superconducting Test Accelerator (ASTA), which is located in the adjacent New Muon Lab (NML) building. A cryomodule test stand (CMTS1) located at CMTF will be used to test 1.3 GHz cryomodules before they are installed in the ASTA cryomodule string. A liquid helium pump and transfer line will be used to provide supplemental liquid helium to ASTA.

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Effects of thermal acoustic oscillations on LCLS-II cryomodule testing

Hansen

Atassi

Bossert

et al. 2017

IOP Conf. Ser.: Mater. Sci. Eng.

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Design of the Fermilab Pre-Series Cold Mass for the HL-LHC Accelerator Upgrade Project

Bossert

Fehér

et al. 2022

IEEE Trans. Appl. Supercond.

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As part of the U.S. contribution to the HL-LHC Accelerator Upgrade Project (AUP), Fermilab is designing and building cold masses suitable for use in the LHC interaction regions. The cold mass provides a vacuum-tight helium enclosure for the magnets. Two magnets are aligned both axially and in cross section at Fermilab based on survey and warm magnetic measurements. Bus work and instrumentation is added. A welded stainless steel vacuum-tight shell surrounds the two magnets, and the structure is prepared for insertion into the cryostat. This paper summarizes the design of the cold mass including alignment, bus work, weld details, and instrumentation.

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Fabrication of the Fermilab Pre-Series Cold Mass for the HL-LHC Accelerator Upgrade Project

Vouris

Bossert

DiMarco

et al. 2023

IEEE Trans. Appl. Supercond.

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Report on the First VLHC Photon Stop Cryogenic Design Experiment

Geynisman¹,

Bauer²,

Bossert³

et al. 2004

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As part of Fermilab's study of a Very Large Hadron Collider (VLHC), a water-cooled photon stop was proposed as a device to intercept the synchrotron radiation emitted by the high-energy proton beams in the high-field superconducting magnets with minimal plugcooling power. Photon stops are radiation absorbers operating at room temperature that protrude into the beam tube at the end of each bending magnet to scrape the synchrotron light emitted by the beam one magnet up-stream. Among the technological challenges regarding photon stops is their cryo-design. The photon stop is water-cooled and operates in a cryogenic environment. A careful cryo-design is therefore essential to enable operation at minimum heat transfer between the room temperature sections and the cryogenic parts. A photon stop cryo-design was developed and a prototype was built. This paper presents the results of the cryogenic experiments conducted on the first VLHC photon-stop prototype.

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R. Bossert

Cryogenic system for the Cryomodule Test Facility at Fermilab

Effects of thermal acoustic oscillations on LCLS-II cryomodule testing

Design of the Fermilab Pre-Series Cold Mass for the HL-LHC Accelerator Upgrade Project

Fabrication of the Fermilab Pre-Series Cold Mass for the HL-LHC Accelerator Upgrade Project

Report on the First VLHC Photon Stop Cryogenic Design Experiment

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