Bell Family Bible, Miscellaneous, 1895 - 1918

A page from the Bell Family Bible entitled "Miscellaneous" recording the dates and places of birth of the children of Charles and Mary Bell. The birth dates for the eight children listed range from 1895 to 1918. There is also a single entry under the heading "Age of Children of Delbert Bell". This Bible was in the possession of the Rick Bell of St. Catharines. The Bell family is descended from former Black slaves from the United States who settled in Canada.The handwritten entries appear to be as follows: "Ages of the children of Charles and Mary Bell are Wilbert Otto Bell born November 7th 1895 Erie Pa. Edna Beatrice Bell born May 25th 1897 Erie Pa. Lewis Terrell Bell born April 8th 1899 St. Catharines Ont. Gertrude Bell born November 26th 1902 St. Catharines Ont. Charles Henry Bell born June 6th 1906 St. Catharines Ont. Richard Wilson Bell born March 19th 1911 William Willoughby Bell born May 2nd 1912 both in St. Catharines Ontario Age of Children of Delbert Bell March 12th 1918 Delbert Charlie Bell"

Design of Resistivity Instrumentation for a He3 Cryostat and its Application to the Charge Density Wave Superconductor CuxTiSe2

Fermi patches in quasi-two dimensional charge density waves (CDW) have not described the connection to superconductivity (SC) according to theory adequately at this point in time. The connection between CDW and SC in the quasi-two dimensional material CuxTiSe2 is an interesting one which might reveal mechanisms in unconventional superconductors. A previous Brock graduate student grew crystals of CuxTiSe2. The precise doping of the samples was not known. In order to determine the doping parameter x in CuxTiSe2, a sensitive resistivity measurement system was necessary. A new resistivity measurement system was designed and implemented utilizing an Infrared Labs HDL-10 He3 cryostat. By comparing with data from the literature, doping of two samples was investigated using the new measurement system and a Quantum Design Magnetic Property Measurement System (MPMS). Methods for determining the doping revealed that the old resistivity system would not be able to determine the CDW transition temperature of highly doped samples or doping for elongated samples due to electronic noise. Doping in one sample was found to be between x=0.06 and x=0.065. Values of doping in the second sample had a discrepancy but could be explained by incorrect sample orientation.