The Doppler effect in Mössbauer spectroscopy

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The use of Mössbauer spectroscopy in chemistry

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The Doppler effect in Mössbauer spectroscopy

Norman Greenwood Scientist

	Views	Duration
151. The Gordon Research Conferences	46	02:33
152. First finding out about Mössbauer spectroscopy	78	01:52
153. Explaining Mössbauer spectroscopy	412	02:22
154. The Doppler effect in Mössbauer spectroscopy	242	01:27
155. The use of Mössbauer spectroscopy in chemistry	147	02:32
156. New research opportunities with Mössbauer spectroscopy	76	01:20
157. The help I received within Mössbauer spectroscopy	49	01:11
158. Those who helped with Mössbauer spectroscopy	52	00:52
159. Writing the definitive book on Mössbauer...	55	01:18
160. Studying tin using Mössbauer spectroscopy	79	00:40

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You know that if you hear an ambulance siren pass you on the road. Bzzzz as it goes past. Or a train whistle, when it’s blowing. That is the Doppler effect, because when a sound emitter, in this case, is moving towards you, the sound waves are compressed, so that the pitch of the tone rises. When it’s disappearing away from you, it is attenuated, and the note drops in tone.

The gamma ray is also electromagnetic radiation, like light, but of a very much shorter wavelength, very much more energetic, in fact. And so you can get devices which move backwards and forwards with particular wave shapes, and they will be a Doppler velocity which gives more and less energy, just around the absorption energy. So one gets a curve, or perhaps I’ll start this way… there is the baseline, comes down like that.

And magically, that works… well, Mössbauer found it first in iridium. It turns out that iron is by far the easiest, the 57 isotope of iron is the pre-eminent Mössbauer absorber, and that’s of course the one that we started on as well, when I’d heard about this.

Norman Greenwood (1925-2012) was born in Australia and graduated from Melbourne University before going to Cambridge. His wide-ranging research in inorganic and structural chemistry made major advances in the chemistry of boron hydrides and other main-group element compounds. He also pioneered the application of Mössbauer spectroscopy to problems in chemistry. He was a prolific writer and inspirational lecturer on chemical and educational themes, and held numerous visiting professorships throughout the world.

Title: The Doppler effect in Mössbauer spectroscopy

Listeners: Brian Johnson

Professor Brian FG Johnson FRS, FRSE, FRS Chem, FAcad Eu, FAS. Professor of Inorganic Chemistry University of Edinburgh 1991-1995, Professor of Inorganic Chemistry University of Cambridge 1995-2005, Master Fitzwilliam College Cambridge 1999-2005. Research interests include studies of transition metal carbonyls, organometallic chemistry, nano- particles and homogeneous catalysis. Professor Johnson is the author of over 1000 research articles and papers.

Tags: Mössbauer spectroscopy, Rudolf Mössbauer

Duration: 1 minute, 27 seconds

Date story recorded: May 2011

Date story went live: 25 November 2011