Langmuir–Taylor detector

A Langmuir–Taylor detector, also called surface ionization detector or hot wire detector, is a kind of detector developed by Taylor^[1] based on the work of Langmuir and Kingdon.^[2]

Construction

This detector usually consists of a heated thin filament or ribbon of a metal with a high work function (typically tungsten or rhenium). Neutral atoms or molecules that strike the filament can boil off as positive ions in a process known as surface ionization, and these may be either measured as a current or detected, individually, using an electron multiplier and particle counting electronics.

Applications

This detector is mostly used with alkali atoms, having a low ionization potential, with applications in mass spectrometry and atomic clocks.

References

↑ Taylor, John (1930). "The Reflection of Beams of the Alkali Metals from Crystals". Physical Review. 35 (4): 375–380. doi:10.1103/PhysRev.35.375.
↑ Langmuir, Irving (1925). "Thermionic Effects Caused by Vapours of Alkali Metals". Proceedings of the Royal Society A. 107: 61–79. doi:10.1098/rspa.1925.0005.

Mass spectrometry

Mass m/z Mass spectrum MS software Acronyms

Ion source	APCI APLI CI DAPPI DART DESI DIOS EESI EI ESI FAB FD GD IA ICP LAESI MALDI MALDESI MIP PTR SS SSI SELDI TI TS

Mass analyzer	Sector Wien filter Time-of-flight Quadrupole mass filter Quadrupole ion trap Penning trap FT-ICR Orbitrap NEMS

Detector	Electron multiplier Microchannel plate detector Daly detector Faraday cup Langmuir–Taylor detector

MS combination	MS/MS QqQ Hybrid MS GC/MS LC/MS IMS/MS CE-MS

Fragmentation	BIRD CID ECD EDD ETD HCD IRMPD NETD SID

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