G.S.V. Coles scite author profile

An introduction to the tin dioxide (SnO,) ceramic gas sensor and its electrical characterization is presented, followed by details of some methods of active material preparation. Problems of sensitivity, selectivity and their modification are then considered. The basic measurand is the conductance of the sensor, which means that the active material must always bridge a pair of electrodes; it must also

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Accurate measurement of the 12.6 GHz "clock" transition in trapped /sup 171/Yb/sup +/ ions

Fisk

Sellars

Lawn

et al. 1997

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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We have measured the frequency of the (171)Yb(+) 12.6 GHz M(F)=0-->0 ground state hyperfine "clock" transition in buffer gas-cooled ion clouds confined in two similar, but not identical, linear Paul traps. After correction for the known differences between the two ion traps, including significantly different second-order Doppler shifts, the frequencies agree within an uncertainty of less than 2 parts in 10(13). Our best value, based on an analytic model for the second-order Doppler shift, for the frequency of the clock transition of an isolated ion at zero temperature, velocity, electric field and magnetic field, is 12642812118.466+0.002 Hz.

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Gas sensing properties of nanocrystalline metal oxide powders produced by a laser evaporation technique

Williams¹,

Coles²

1998

J. Mater. Chem.

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NOx response of tin dioxide based gas sensors

Williams

Coles

1993

Sensors and Actuators B: Chemical

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G.S.V. Coles

The tin dioxide gas sensor

Accurate measurement of the 12.6 GHz "clock" transition in trapped /sup 171/Yb/sup +/ ions

Gas sensing properties of nanocrystalline metal oxide powders produced by a laser evaporation technique

NOx response of tin dioxide based gas sensors

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