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MONDAY, DECEMBER 28, 2009
Pixel Array Detector (PAD): State-of-the-art Segmented Detector for X-ray Spectroscopy
Hiroyuki Oyanagi
Photonics Research Institute, AIST, Tsukuba, Ibaraki 305-8568, Japan
Moore’s law
Moore’s law
FEL
ERL
The original meaning of Moore’s law is of course description of a long-term trend in the
history of computer circuits, in which the number of transistors (dead word now) which are
found on an integrated circuit (IC) has doubled approximately every two years. In modern
industry, exponential growth plotted against linear scale is often called Moore’s law. In fact
density of IC followed an exponential growth owing to incredible efforts. In a similar
fashion, we see an exponential trend in brilliance of synchrotron radiation that may look
like never-ending.
Sustainability in brilliance of light source can be called synchrotron Moor’s law. Note,
however, that straight line in exponential scale actually consists of multiple lines, i.e.,
different devices based on different principles, such as bending magnet, wiggler,
undulator, Free Electron Laser (FEL) and Energy Recovery Linac (ERL)1.
Gordon E. Moore says, however, “No exponential law lasts forever”. Indeed, silicon
technology which prospered for many decades is now seriously endangered. Leakage
current in nm-scale MOS devices became dependent on tunneling which is governed by
intrinsic (dielectric) property.
Fig.1
Brilliance of synchrotron plotted
against time which shows a
Moore’s law-like exponential
growth.
1. P. Montano & H. Oyanagi,
MRS BULLETIN 24 (1999)
13.
MONDAY, DECEMBER 28, 2009
TITLE 18 point bold
RECEIVED DATE in 9 point
Pixel Array Detector (PAD): State-of-the-art Segmented Detector for X-ray Spectroscopy
Hiroyuki Oyanagi
Photonics Research Institute, AIST, Tsukuba, Ibaraki 305-8568, Japan
SECTION TITLE in 18 point bold
Moore’s law
Moore’s law
NAMEs & AFFILIATIONS in 11 point
ABSTRACT (if needed) in 11 point
The original meaning of Moore’s law is of course description of a long-term trend in the
history of computer circuits, in which the number of transistors (dead word now) which are
found on an integrated circuit (IC) has doubled approximately every two years. In modern
industry, exponential growth plotted against linear scale is often called Moore’s law. In fact
density of IC followed an exponential growth owing to incredible efforts. In a similar
fashion, we see an exponential trend in brilliance of synchrotron radiation that may look
like never-ending.
Text 88 column (11point)
FEL
ERL
Sustainability in brilliance of light source can be called synchrotron Moor’s law. Note,
however, that straight line in exponential scale actually consists of multiple lines, i.e.,
different devices based on different principles, such as bending magnet, wiggler,
undulator, Free Electron Laser (FEL) and Energy Recovery Linac (ERL)1.
Gordon E. Moore says, however, “No exponential law lasts forever”. Indeed, silicon
technology which prospered for many decades is now seriously endangered. Leakage
current in nm-scale MOS devices became dependent on tunneling which is governed by
intrinsic (dielectric) property.
KEYWORD &
FOOTNOTEs in
11 point
Images
in jpg, png pdf format
Fig.1
Brilliance of synchrotron plotted
against time which shows a
Moore’s law-like exponential
growth.
1. P. Montano & H. Oyanagi,
MRS BULLETIN 24 (1999)
13.
FIGURE CAPTIONS
& REFERENCES in
11 point
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