High time resolution astrophysics and extremely large telescopes

Andrew Shearer

High time resolution astrophysics and extremely large telescopes

Andrew Shearer

Physics

Research output: Chapter in Book or Conference Publication/Proceeding › Conference Publication › peer-review

Abstract

Extremely large telescopes are an opportunity to fully explore a new frontier in astrophysics. Observations of short time-scale phenomena ranging from flares in normal stars through magnetospheric phenomena in pulsars to turbulence in AGNs will be possible. Observations of quantum phenomena represent an opportunity to directly infer the physical conditions in an astronomical source in an unique way. New detector technology will enable a complete characterisation of the incoming optical radiation with no additional optics. However the current designs for the 42m European ELT have 5 active or adaptive mirror elements each one of these will introduce their own degree of timing noise with specific temporal characteristics. Here we explore some of the implications of HTRA in the extremely large telescope era.

Original language	English (Ireland)
Title of host publication	UNIVERSE AT SUB-SECOND TIMESCALES: HIGH TIME RESOLUTION ASTROPHYSICS
Publication status	Published - 1 Aug 2008

Authors (Note for portal: view the doc link for the full list of authors)

Authors
Cunniffe, J,Voisin, B,Neustroev, V,Andersen, T,Enmark, A,Phelan, D,Ryan, O,Shearer, A

Cite this

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abstract = "Extremely large telescopes are an opportunity to fully explore a new frontier in astrophysics. Observations of short time-scale phenomena ranging from flares in normal stars through magnetospheric phenomena in pulsars to turbulence in AGNs will be possible. Observations of quantum phenomena represent an opportunity to directly infer the physical conditions in an astronomical source in an unique way. New detector technology will enable a complete characterisation of the incoming optical radiation with no additional optics. However the current designs for the 42m European ELT have 5 active or adaptive mirror elements each one of these will introduce their own degree of timing noise with specific temporal characteristics. Here we explore some of the implications of HTRA in the extremely large telescope era.",

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AB - Extremely large telescopes are an opportunity to fully explore a new frontier in astrophysics. Observations of short time-scale phenomena ranging from flares in normal stars through magnetospheric phenomena in pulsars to turbulence in AGNs will be possible. Observations of quantum phenomena represent an opportunity to directly infer the physical conditions in an astronomical source in an unique way. New detector technology will enable a complete characterisation of the incoming optical radiation with no additional optics. However the current designs for the 42m European ELT have 5 active or adaptive mirror elements each one of these will introduce their own degree of timing noise with specific temporal characteristics. Here we explore some of the implications of HTRA in the extremely large telescope era.

M3 - Conference Publication

BT - UNIVERSE AT SUB-SECOND TIMESCALES: HIGH TIME RESOLUTION ASTROPHYSICS

ER -

High time resolution astrophysics and extremely large telescopes

Abstract

Authors (Note for portal: view the doc link for the full list of authors)

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Cite this