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	==Early life and education==		==Early life and education==
	Scheuer was born in Frankfurt am Main, of Jewish ancestry, and escaped to the UK in 1938,<ref>{{Cite web\|url=https://www.nrao.edu/archives/items/show/15168\|title=NRAO Interview with Peter Scheuer}}</ref> where he eventually studied physics at ]. In 1951, he remained in Cambridge to join the ] research group of ], working as Ryle's PhD student.<ref name="Scheuer oral history">{{Cite web\|url=https://www.aip.org/history-programs/niels-bohr-library/oral-histories/4860\|title=Peter Scheuer: AIP oral history\|date=24 September 2021 }}</ref> He was eventually given a position on the tenured teaching staff of the ], as an assistant director of research, in 1963.~~{{Citation needed\|date=January 2025}}~~ At the same time, he became a Fellow of ].~~{{Citation needed\|date=January 2025}}~~ He was subsequently promoted to reader,~~{{Citation needed\|date=January 2025}}~~ and remained at Cambridge for the rest of his career.		Scheuer was born in Frankfurt am Main, of Jewish ancestry, and escaped to the UK in 1938,<ref>{{Cite web\|url=https://www.nrao.edu/archives/items/show/15168\|title=NRAO Interview with Peter Scheuer}}</ref> where he eventually studied physics at ]. In 1951, he remained in Cambridge to join the ] research group of ], working as Ryle's PhD student.<ref name="Scheuer oral history">{{Cite web\|url=https://www.aip.org/history-programs/niels-bohr-library/oral-histories/4860\|title=Peter Scheuer: AIP oral history\|date=24 September 2021 }}</ref> He was eventually given a position on the tenured teaching staff of the ], as an assistant director of research, in 1963. At the same time, he became a Fellow of ]. He was subsequently promoted to reader, and remained at Cambridge for the rest of his career.<ref name="Scheuer Obituary">{{Cite web\|url=https://www.nrao.edu/archives/files/original/8f4cf3179149c56a953fe8773d5a1dac.pdf\|title=Peter Scheuer Obituary}}</ref>

	==Scientific achievements==		==Scientific achievements==
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	==Death==		==Death==
	Scheuer died at his home in West Wickham, Cambridgeshire, on 21 January 2001. He was survived by his wife, Jane Morford, and his daughter, Sarah.		Scheuer died at his home in West Wickham, Cambridgeshire, on 21 January 2001. He was survived by his wife, Jane Elizabeth Morford, and his daughter, Sarah. <ref name="Scheuer Obituary"></ref>

	==References==		==References==

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British astrophysicist

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Peter Scheuer

Born	(1930-03-31)March 31, 1930 Frankfurt am Main
Died	January 21, 2001(2001-01-21) (aged 70) West Wickham, Cambridgeshire
Alma mater	University of Cambridge
Known for	Analysis of confusion-limited surveys; effect of neutral intergalactic medium on quasar spectra; models of jets in radio galaxies
Scientific career
Fields	Cosmology, Astrophysics
Institutions	University of Cambridge
Doctoral advisor	Sir Martin Ryle
Doctoral students	Malcolm Longair

Peter August Georg Scheuer (31 March 1930 – 21 January 2001) was a German-born British astrophysicist and radio astronomer, who made major contributions in theory and observation to extragalactic astronomy and cosmology. In particular, he created the P(D) method that allowed number counts of extragalactic radio sources to be estimated in the presence of source confusion; he independently proposed the Gunn-Peterson trough as a means of detecting intergalactic neutral hydrogen; he produced some of the earliest arguments for ejection of relativistic jets from the centres of active gaiaxies and quasars.

Early life and education

Scheuer was born in Frankfurt am Main, of Jewish ancestry, and escaped to the UK in 1938, where he eventually studied physics at the University of Cambridge. In 1951, he remained in Cambridge to join the radio astronomy research group of Sir Martin Ryle, working as Ryle's PhD student. He was eventually given a position on the tenured teaching staff of the Cavendish Laboratory, as an assistant director of research, in 1963. At the same time, he became a Fellow of Peterhouse. He was subsequently promoted to reader, and remained at Cambridge for the rest of his career.

Scientific achievements

Scheuer made a definitive contribution to the 1950s controversy over radio source counts. The early radio surveys claimed a large excess of faint sources,in conflict with the predictions of the steady-state cosmology. This issue was the subject of heated debate beween Ryle and Sir Fred Hoyle. One difficulty was that the early surveys were 'confusion limited': what appeared to be a single faint source was often a blend of several still fainter objects, thus boosting the counts. Scheuer solved this problem by developing the 'P(D) method', allowing the correct counts to be extracted and showing that they were still in conflict with steady-state predictions. The P(D) method remains widely used in astronomical imaging surveys, as testified by the continuing citations to Scheuer's 1957 paper.

Scheuer developed an interest in the intergalactic medium and realised that the spectra of quasars offered an extremely sensitive probe of neutral gas: even an neutral fraction of order a part in 100,000 would be sufficient to cause noticeable absorption of the rest-frame UV continuum shortwards of the Lyman-alpha emission line. At the time, this set only an upper limit to the density - but as quasars were found at higher redshifts, the predicted trough was detected. This is now known as the Gunn-Peterson trough after two American astronomers who made the same prediction, and it is unfortunately not widely appreciated that Scheuer invented the idea independently and at the same time.

Scheuer's influence was perhaps at its greatest through his longstanding efforts as a theorist seeking to explain the powerful emission from the radio galaxies being detected by Ryle's radio telescopes. These were often of a double morphology, and Scheuer showed that this could be accounted for if the energy of the radiating electrons was built up by energy supplied from the central galaxy. In due course, it would be demonstrated that the central source of energy was a supermassive black hole and the connecting jets would be imaged directly; but Scheuer's early analysis was general and independent of this detailed evidence.

The first direct evidence for relativistic jets in active galaxies came when the high-brightness cores of quasars were seen via very long baseline interferometry to be ejecting blobs of emitting plasma with apparent transverse velocities greater than that of light. This superluminal motion makes sense if the jets move with high Lorentz factors and are directed nearly along the line of sight. Scheuer & Readhead realised that such motion would be accompanied by relativistic beaming and enhancement of the apparent flux density, leading observational selection to favour jets aligned with the line of sight. This then raised the question of the appearance of objects where the jets were directed transversely, and Scheuer & Readhead proposed the first unified scheme for radio sources, suggesting that the misaligned objects would be radio-quiet quasars. It is now believed that this is not correct, and that the misaligned objects would be radio galaxies. But this original idea of beaming-based unification was immensely influential.

Death

Scheuer died at his home in West Wickham, Cambridgeshire, on 21 January 2001. He was survived by his wife, Jane Elizabeth Morford, and his daughter, Sarah.

References

"NRAO Interview with Peter Scheuer".
"Peter Scheuer: AIP oral history". 24 September 2021.
^ "Peter Scheuer Obituary" (PDF).
"The Spatial Distribution and the Nature of Radio Stars".
"The Hoyle-Ryle clashes".
Scheuer, P. A. G. (1957). "A statistical method for analysing observations of faint radio stars". Proceedings of the Cambridge Philosophical Society. 53 (3): 764. Bibcode:1957PCPS...53..764S. doi:10.1017/S0305004100032825.
Scheuer, P. A. G. (1965). "A Sensitive Test for the Presence of Atomic Hydrogen in Intergalactic Space". Nature. 207 (5000): 963. Bibcode:1965Natur.207..963S. doi:10.1038/207963a0.
Scheuer, P. A. G. (1974). "Models of extragalactic radio sources with a continuous energy supply from a central object". Monthly Notices of the Royal Astronomical Society. 166 (3): 513. Bibcode:1974MNRAS.166..513S. doi:10.1093/mnras/166.3.513.
Scheuer, P. A. G.; Readhead, A. C. S. (1979). "Superluminally expanding radio sources and the radio-quiet QSOs". Nature. 277 (5693): 182. Bibcode:1979Natur.277..182S. doi:10.1038/277182a0.
"Unified Schemes for Radio-Loud Active Galactic Nuclei".

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