Engineered Surface Treatments for ILC Cavities

Award Information
Agency:
Department of Energy
Branch
n/a
Amount:
$100,000.00
Award Year:
2006
Program:
SBIR
Phase:
Phase I
Contract:
DE-FG02-06ER84453
Award Id:
77629
Agency Tracking Number:
81163S06-I
Solicitation Year:
n/a
Solicitation Topic Code:
n/a
Solicitation Number:
n/a
Small Business Information
116 Villa Road, Newport News, VA, 23601
Hubzone Owned:
N
Minority Owned:
N
Woman Owned:
N
Duns:
n/a
Principal Investigator:
RoyCrooks
Dr.
(757) 303-5325
roy.crooks@verizon.net
Business Contact:
TracyCrooks
Ms.
(757) 596-5853
gm@black-labs.org
Research Institute:
n/a
Abstract
The superconducting radio-frequency cavities being tested for use in the International Linear Collider are made from high purity niobium sheet metal, which has an inherent, performance-hindering "damaged layer." This surface layer is removed by acid treatments, which result in hydrogen contamination and necessitate high-temperature, vacuum heat treatments. This project will develop technology both to characterize and to remove the ¿damaged layer.¿ For characterization, the effect of a ¿damaged layer¿ of un-recrystalized grains at the sheet surface will be measured. For removal, acid-free electro-polishes will be evaluated to eliminate the hydrogen contamination problem. Phase I will use electron microscopy techniques and the TE011 cavity at Thomas Jefferson Laboratory to examine the relationship between the unrecrystallized surface layer and the radio-frequency superconductivity of the niobium sheet. Procedures for avoiding the ¿damaged¿ layer during sheet metal rolling will be identified. Current-density vs. voltage plots will be used to determine optimum acid-free polishing conditions, and polished samples will be tested for high-field Q droop. Commercial Applications And Other Benefits as described by the Applicant: The International Linear Collider will use over 20,000, meter-long, nine-cell, superconducting radio frequency (SRF) cavities made of RRR niobium. The technology developed in this project should reduce the time and greatly lower the cost of the surface treatment of these cavities. Lower cost, higher performance accelerators also would have application in many other fields: over 10,000 accelerators are now used, worldwide, for medical diagnostics, advanced materials characterization, communications, military applications, condensed matter physics, nuclear and heavy ion research, structural biology, and environmental studies

* information listed above is at the time of submission.

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