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A Brief History of High-Energy Astronomy: 1000 - 1499
Era
In Reverse Chronological Order
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| 1460 - 1550 |
Radiocarbon (14C) analysis of tree rings and historical
observations of the aurora borealis indicate a 90-year
period of lower than average solar activity, now called the Spörer
Minimum. This period was, likely not coincidentally, one with
cooler than average global temperatures, implying that the solar bolometric
luminosity was also reduced during this interval. |
| 11 Mar 1437 |
Korean astronomers observe and record a
`guest star' in the modern constellation of Scorpius which fades out of sight
2 weeks later, consistent with the
duration of a classical nova eruption. Almost 6 centuries later,
Shara et al. (2017, Nature, 548, 558) identified the dwarf nova-type
catalcysmic
variable 2MASS J17012815-4306123 as the progenitor of this eruption and the
1.5-arcminute diameter expanding shell of material as the ejecta from this
nova eruption, confirming the hypothesis that many old classical novae "become
dwarf novae for part of the millennia between successive nova eruptions". |
| 1408 |
Chinese and Japanese astronomers observe and record a
`guest star' which has been suspected by some researchers, e.g., Wang et
al. (1986, Highlights of Astronomy, 7, 583), to be a
supernova explosion, specifically the SN that
produced the supernova remnant CTB 80 = SNR 069.0+02.7, although this
has hypothesis not been
universally accepted (e.g., Stephenson & Yau 1986,
JQRAS, 27, 559). |
| circa 1320 |
The supernova that nobody noticed? ROSAT discovered a previously
unknown, relatively nearby (200-700 pc) supernova remnant (SNR) during its
All-Sky Survey phase, RX J0852.0-4622,
which appears to coincide with a Compton Observatory/COMPTEL gamma-ray source
GRO J0852.0-4642. The latter appears to have an emission line due to
radioactive 44Ti indicative of formation in a recent (680 years
old) supernova, according to Iyudin et al. (2005, A&A, 429, 225). This age
estimate coincides with a spike in nitrate concentration in an Antarctic ice
core: a number of such spikes have been proposed to be results of the
effect of nearby historical supernovae on the Earth's atmosphere
(Burgess & Zuber 2000, Astroparticle Physics, 14, 1).
The big puzzle is why there are no historical records of a supernova (see
Ashenbach et al. 1999, A&A, 350, 997 for more discussion): Redman and Meaburn
(2005, MNRAS, 356, 969) have noted that if the pulsar PSR J0855-4644 is the
stellar remnant of the supernova, its off-center position within the SNR
implies a much older age of at least 3000 years (well before the period when
detailed astronomical records were made and/or have survived from). |
| 1280 - 1350 |
Radiocarbon (14C) analysis of tree rings indicate a 70-year
period of lower than average solar activity, now called the Wolf
Minimum. |
| 1181 |
Chinese and Japanese astronomers observe and record a `guest star' which
is now considered to be the supernova explosion SN 1181 which
produced the supernova remnant 3C 58 (SNR
130.7+03.1). |
| 1066 |
The Norman invasion of England, led by William the Conqueror. The
invasion is recorded in the Bayeux tapestry
: among other features, the tapestry records the appearance of
Halley's Comet (P1/Halley) around the time of the invasion. |
| 4 Jul 1054 |
Chinese and Japanese astronomers observe and record a `guest star' which
is now considered to be the supernova SN 1054 which produced the Crab Nebula
(SNR 184.6-05.8). |
| 1010 - 1080 |
Radiocarbon (14C) analysis of tree rings indicate a 70-year
period of lower than average solar activity, now called the Oort
Minimum. |
| 1006 |
Chinese, Japanese, and possibly Korean astronomers observe and record a
`guest star' which is now considered to be the supernova explosion SN 1006
, the brightest recorded supernova (with a brightness at maximum brighter
than Venus), which produced the supernova remnant SNR
327.6+14.6. |
Return to main History
of High-Energy Astronomy page
Acknowledgements
We would like to thank the following individuals for their
contributions to this page:
Jesse S. Allen, and
Ian M. George
along with
JPL's Space Calendar and the
Working Group for the History of Astronomy's
Astronomiae Historia (History of Astronomy) information pages.
Web page author: Stephen A. Drake (based on an original by Jesse S. Allen)
Web page maintainer: Stephen A. Drake
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