Rongli Geng scite author profile

Recent studies by Romanenko et al. revealed that cooling down a superconducting cavity under a large spatial temperature gradient decreases the amount of trapped flux and leads to reduction of the residual surface resistance. In the present paper, the flux expulsion ratio and the trapped-flux-induced surface resistance of a large-grain cavity cooled down under a spatial temperature gradient up to 80 K=m are studied under various applied magnetic fields from 5 to 20 μT. We show the flux expulsion ratio improves as the spatial temperature gradient increases, independent of the applied magnetic field: our results support and enforce the previous studies. We then analyze all rf measurement results obtained under different applied magnetic fields together by plotting the trapped-flux-induced surface resistance normalized by the applied magnetic field as a function of the spatial temperature gradient. All the data can be fitted by a single curve, which defines an empirical formula for the trapped-flux-induced surface resistance as a function of the spatial temperature gradient and applied magnetic field. The formula can fit not only the present results but also those obtained by Romanenko et al. previously. The sensitivity r fl of surface resistance from trapped magnetic flux of fine-grain and large-grain niobium cavities and the origin of dT=ds dependence of R fl =B a are also discussed.

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Optimal cells for TESLA accelerating structure

Shemelin

Geng

2003

Nuclear Instruments and Methods in Physics Research Section A:

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Suppression of multipacting in rectangular coupler waveguides

Geng

Padamsee

Belomestnykh

et al. 2003

Nuclear Instruments and Methods in Physics Research Section A:

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Rongli Geng

The International Linear Collider Technical Design Report - Volume 3.II: Accelerator Baseline Design

The International Linear Collider: Report to Snowmass 2021

Dependence of trapped-flux-induced surface resistance of a large-grain Nb superconducting radio-frequency cavity on spatial temperature gradient during cooldown throughTc

Optimal cells for TESLA accelerating structure

Suppression of multipacting in rectangular coupler waveguides

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