Preliminary studies of Electric and Magnetic Field Effects in Superconducting Niobium Cavities
Superconducting cavities made from high purity niobium with RRR > 200 often show pronounced features in the Q vs. E{sub acc} dependence such as a peak at low gradients, a B{sup 2}-slope at intermediate fields and a steep degradation of Q-values (''Q-drop'') at gradients above E{sub acc} {approx} 20 MV/m without field emission loading. Whereas the B{sup 2}-slope is in line with ''global'' heating [2] there are still different models to explain the observed ''Q-drop''. The model of ref. [1] is based on magnetic field enhancements at grain boundaries in the equator weld region of the cavity and local heating. These grain boundaries become normal conducting, when their critical magnetic field is reached and contribute gradually to the losses in the cavity as long as they are thermally stable. The model proposed in ref. [2] is based on effects taking place in the metal-oxide interface on the niobium surface. The major contribution to the RF absorption is coming from interface tunnel exchange between electronic states of superconducting Nb with their energy gap and localized states of the dielectric Nb{sub 2}O{sub 5}. An experimental program was started at JLab to settle the mechanisms behind B{sup 2}-slope and the Q-drop. A modified CEBAF single cell cavity is excited in either TM{sub 010} or TE{sub 011} modes and the Q vs. E{sub acc} dependences are measured as a function of various surface treatments such as BCP, electropolishing, high temperature heat treatment and ''in-situ'' baking. In addition, a special two-cell cavity was designed, which allows the excitation of the 0- and {pi}-modes of the TM{sub 010} passband, which ''scan'' different areas of the cavity surface with high electric and magnetic fields, respectively. This contribution reports about the design and first measurements with both types of cavities.
- Research Organization:
- Thomas Jefferson National Accelerator Facility (TJNAF), Newport News, VA (United States)
- Sponsoring Organization:
- USDOE Office of Energy Research (ER) (US)
- DOE Contract Number:
- AC05-84ER40150
- OSTI ID:
- 822205
- Report Number(s):
- JLAB-ACC-03-62; DOE/ER/40150-2619; TRN: US200412%%528
- Resource Relation:
- Conference: PAC 2003, Portland, OR (US), 05/2003; Other Information: PBD: 1 May 2003
- Country of Publication:
- United States
- Language:
- English
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