Gratings, Mirrors and Slits
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€192.20
A01=W B Peatman
A01=WB Peatman
advanced laboratory optics
Author_W B Peatman
Author_WB Peatman
beamline
Beamline Design
Beta Functions
Category=PHJ
Category=PHM
design
Diffraction Grating
Dipole Magnet
entrance
Entrance Slit
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eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
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exit
Exit Slit
experimental physics techniques
Fermat's Principle
Fermat’s Principle
Grating Monochromator
Insertion Devices
Odd Harmonics
Optical Constants
optical system alignment
photon beam transport
Plane Grating
Plane Grating Monochromator
programs
Quarter Wave Plates
radiation
Ray Trace
Ray Trace Program
ring
Rowland Circle
soft x-ray beamline engineering
Soft X-ray Monochromator
Soft X-ray Region
Spherical Grating
Spherical Mirror
storage
Storage Ring
synchrotron
Synchrotron Radiation
Synchrotron Radiation Sources
trace
Undulator Radiation
vacuum ultraviolet instrumentation
William Burling Peatman
x-ray optics
Product details
- ISBN 9789056990282
- Weight: 580g
- Dimensions: 174 x 246mm
- Publication Date: 22 May 1997
- Publisher: Taylor & Francis Ltd
- Publication City/Country: GB
- Product Form: Hardback
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Intended to provide scientists and engineers at synchrotron radiation facilities with a sound and convenient basis for designing beamlines for monochromatic soft x-ray radiation, this text will also be helpful to the users of synchrotron radiation who want to help ensure that beamlines being built are optimized for the experiments to be performed on them. The primary purpose of a beamline is to capture as much of the light of the source as possible and then to transfer the desired portion of that light as completely as possible to the experiment. With the development of dedicated, brilliant synchrotron radiation sources, the first half of the task has been greatly simplified. The beamline designer must contend with the second half of the problem -- conserving the brilliance of the source through an optical system which monochromatizes and focuses the radiation.
Peatman, W B
