A. Nassiri scite author profile

A. Nassiri

5Publications

37Citation Statements Received

47Citation Statements Given

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Affiliations

Argonne National Laboratory, Texas A&M University, Michigan State University

Publications

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New method to improve the accuracy of quench position measurement on a superconducting cavity by a second sound method

Liu

Kelly

Nassiri

2012

Phys. Rev. ST Accel. Beams

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Quench is a common phenomenon in a superconducting cavity and often limits the accelerating gradient of the cavity. Accurate location of the quench site, typically located at a material or geometrical defect, is the key to improve the cavity accelerating gradient. Here, the second sound propagation in liquid helium II is used to detect the quench location on the cavity. The technique is relatively convenient and complements the traditional temperature mapping which measures the ''prequench'' temperature rise on the cavity using an array of sensors. The speed of the second sound in liquid helium II is roughly 1:7 cm=ms at 2 K which is sufficiently fast to provide a millimeter-size position resolution. However, the dynamics of the quench at the cavity surface are also found to significantly affect the achievable resolution with real cavities. Here we use a dynamic quench model, based on ANSYS, to calculate the quench area and the temperature distribution on the cavity. The detection error caused by the thermal conduction in the niobium was calculated.

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Growth of magnesium diboride films on 2 inch diameter copper discs by hybrid physical–chemical vapor deposition

Withanage

Nassiri

et al. 2017

Supercond. Sci. Technol.

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Magnesium diboride (MgB2) coating is a potential candidate to replace bulk niobium (Nb) for superconducting radio frequency cavities due to the appealing superconducting properties of MgB2. MgB2 coating on copper may allow cavity operation near 20–25 K as a result of the high transition temperature (Tc) of MgB2 and excellent thermal conductivity of Cu. We have grown MgB2 films on 2 inch diameter Cu discs by hybrid physical–chemical vapor deposition for radio frequency characterization. Structural and elemental analyses showed a uniform MgB2 coating on top of a Mg–Cu alloy layer with occasional intrusion of Mg–Cu alloy regions. High Tc values of around 37 K and high critical current density (Jc) on the order of 107 A cm−2 at zero field were observed. Radio frequency measurements at 11.4 GHz confirmed a high Tc and showed a quality factor (Q0) much higher than for Cu and close to that of Nb.

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Hybrid Physical Chemical Vapor Deposition of Magnesium Diboride Inside 3.9 GHz Mock Cavities

Lee

Withanage

Tan

et al. 2017

IEEE Trans. Appl. Supercond.

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A micro-undulator fabricated by LIGA processes

et al. 1996

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Generation of Short X-Ray Pulses Using Crab Cavities at the Advanced Photon Source

Harkay

Borland²,

Chae³

et al.

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A. Nassiri

New method to improve the accuracy of quench position measurement on a superconducting cavity by a second sound method

Growth of magnesium diboride films on 2 inch diameter copper discs by hybrid physical–chemical vapor deposition

Hybrid Physical Chemical Vapor Deposition of Magnesium Diboride Inside 3.9 GHz Mock Cavities

A micro-undulator fabricated by LIGA processes

Generation of Short X-Ray Pulses Using Crab Cavities at the Advanced Photon Source

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