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THE ELECTRONIC JOURNAL OF
THE ASTRONOMICAL SOCIETY OF THE ATLANTIC
Volume 4, Number 6 - January 1993
###########################
TABLE OF CONTENTS
###########################
* ASA Membership and Article Submission Information
* Conference Preview: The Search for Extraterrestrial Intelligence
(SETI) in the Optical Spectrum - Dr. Stuart A. Kingsley
* A Visit to China
###########################
ASA MEMBERSHIP INFORMATION
The Electronic Journal of the Astronomical Society of the Atlantic
(EJASA) is published monthly by the Astronomical Society of the
Atlantic, Incorporated. The ASA is a non-profit organization dedicated
to the advancement of amateur and professional astronomy and space
exploration, as well as the social and educational needs of its members.
ASA membership application is open to all with an interest in
astronomy and space exploration. Members receive the Journal of the
ASA (hardcopy sent through United States Mail - Not a duplicate of this
Electronic Journal) and the Astronomical League's REFLECTOR magazine.
Members may also purchase discount subscriptions to ASTRONOMY and
SKY & TELESCOPE magazines.
For information on membership, you may contact the Society at any
of the following addresses:
Astronomical Society of the Atlantic (ASA)
c/o Center for High Angular Resolution Astronomy (CHARA)
Georgia State University (GSU)
Atlanta, Georgia 30303
U.S.A.
asa@chara.gsu.edu
ASA BBS: (404) 564-9623, 300/1200/2400 Baud.
or telephone the Society Recording at (404) 264-0451 to leave your
address and/or receive the latest Society news.
ASA Officers and Council -
President - Don Barry
Vice President - Nils Turner
Secretary - Ingrid Siegert-Tanghe
Treasurer - Mike Burkhead
Directors - Bill Bagnuolo, Eric Greene, Tano Scigliano
Council - Bill Bagnuolo, Bill Black, Mike Burkhead, Frank Guyton,
Larry Klaes, Ken Poshedly, Jim Rouse, Tano Scigliano,
John Stauter, Wess Stuckey, Harry Taylor, Gary Thompson,
Cindy Weaver, Bob Vickers
ARTICLE SUBMISSIONS
Article submissions to the EJASA on astronomy and space exploration
are most welcome. Please send your on-line articles in ASCII format to
Larry Klaes, EJASA Editor, at the following net addresses or the above
Society addresses:
klaes@verga.enet.dec.com
or - ...!decwrl!verga.enet.dec.com!klaes
or - klaes%verga.dec@decwrl.enet.dec.com
or - klaes%verga.enet.dec.com@uunet.uu.net
You may also use the above addresses for EJASA back issue requests,
letters to the editor, and ASA membership information.
When sending your article submissions, please be certain to include
either a network or regular mail address where you can be reached, a
telephone number, and a brief biographical sketch.
Back issues of the EJASA are also available from anonymous FTP
at chara.gsu.edu (131.96.5.29)
DISCLAIMER
Submissions are welcome for consideration. Articles submitted,
unless otherwise stated, become the property of the Astronomical
Society of the Atlantic, Incorporated. Though the articles will not
be used for profit, they are subject to editing, abridgment, and other
changes. Copying or reprinting of the EJASA, in part or in whole, is
encouraged, provided clear attribution is made to the Astronomical
Society of the Atlantic, the Electronic Journal, and the author(s).
Opinions expressed in the EJASA are those of the authors' and not
necessarily those of the ASA. This Journal is Copyright (c) 1993
by the Astronomical Society of the Atlantic, Incorporated.
CONFERENCE PREVIEW
THE SEARCH FOR EXTRATERRESTRIAL INTELLIGENCE (SETI)
IN THE OPTICAL SPECTRUM
by Dr. Stuart A. Kingsley
Fiberdyne Optoelectronics, Columbus, Ohio
From the author of the January 1992 six-part EJASA (THE ELECTRONIC
JOURNAL OF THE ASTRONOMICAL SOCIETY OF THE ATLANTIC) article (Vol. 3,
No. 6A-6F) on Optical SETI (OSETI).
The author would like to acknowledge that this Electronic Journal
has been instrumental in the organization of this conference, for
without last January's publication, this author would not have been
invited by SPIE to put this conference together.
You are encouraged to remail this material to anyone you know with
interests in SETI or to print it out and pin it up on your astronomical
society, company, faculty, or school notice board. Some of the
following material was featured in the October 1992 issue of EJASA
(Vol. 4, No. 3) and the December 1992 issue of SPIE's OE REPORTS:
Almost three years ago I began "lobbying" the scientific community
to reconsider the optical approach to the electromagnetic search for
extraterrestrial intelligence (SETI), first described by Nobel laureate
Charles Townes (1964 - masers/lasers) in 1961. Unfortunately, many of
the strongest proponents for electromagnetic SETI have become dogmatic
and will not countenance open discussion of alternatives to microwave
SETI, believing that the issue of the relative efficiencies of microwave
and optical SETI was settled years ago in favor of microwaves. Optical
SETI has received very poor press ever since the skewed ETI laser
transmitter assumptions in the Project Cyclops report, two decades ago.
This NASA design study report described a microwave array consisting of
up to nine hundred 100-meter diameter dishes which if fully built would
have occupied an area 6.4 kilometers in diameter and cost, in 1970s
currency, some ten billion dollars. This grand project was never fun-
ded but the report itself has had a profound effect on SETI thinking.
In the comparison table that appeared on page 50 of that report, the
optical system modeled described an interstellar laser communication
system that employed a 1.06 micron Nd:YAG laser, and a 22.5 cm diameter
transmitting telescope. There were various reasons for limiting the
aperture of the ETI transmitter. One reason arose out of unnecessarily
constraining both parts of the system to operate on a planetary surface,
within an atmosphere, and thus be limited by the atmospheric coherence
cell size. Another reason was to avoid the production of beams that
were smaller than the zones of life around nearby targeted stars.
However, the net effect was to cripple the potential very high Effective
Isotropic Radiated Power (EIRP) of the optical transmitters.
It would be far better to build larger transmitting telescopes and
defocus them when targeting nearby stars, if, in the unlikely event,
the ETI civilization did not possess the technical prowess to aim narrow
beams into nearby stars. In this way, the long-range EIRP would not be
unnecessarily degraded. The modeled "toy" ETI uplink telescopes put
the onus on the young and technically immature receiving civilization
(humanity) to build very large and expensive telescopes to receive weak
signals from mature ETI civilizations, instead of the converse. It
was this part of an otherwise excellent report that so distorted its
conclusions concerning the efficacy and relative cost (to us) of the
optical approach to SETI.
If we allow for transmitting and receiving apertures to be 10 meters
in diameter or larger, it can be shown for transmitter powers comparable
to those for microwave systems that relatively small diffraction-
limited laser systems are capable of supporting far higher signal-to-
noise ratios and data rates than the much larger microwave systems. The
extremely high gains of optical antennas more than make up for the
additional quantum noise and stellar background radiation noise. The
lack of (currently) easily identifiable "magic optical frequencies",
equivalent to the microwave waterhole between 1.420 and 1.662 GHz, save
for the major CO2 transition at 10.6 microns, is not a reason to
conclude that ETIs would not use lasers to signal Earth. Indeed, the
effectiveness of pulsed laser signals is so high that there is less
need to be concerned about the exact laser frequency.
Indeed, from the viewpoint of communications with extraterrestrial
intelligences (CETI), which is not presently being proposed, terrene SDI
lasers of the late Twentieth Century are certainly capable of "reaching
out and touching ETIs" across one thousand or more light years. The
problem today is that we do not know where to point our lasers and we
lack the means to provide precise forward predictive targeting of
extrasolar planets. Even more basic to this problem is that direct
visual observations of other planets around nearby star systems await
the technological developments of the next century. In the meantime,
we must take the passive and perhaps safer approach of listening for
ETI signals.
Let it be noted here that the word "optical" is used in a manner
familiar to optoelectronics (photonics) engineers and scientists, as
an umbrella term. It is a superset of both "visible" and "infrared."
The word "optical" is not to be taken as being synonymous with the word
"visible", since the former (for communication engineers) covers all
electromagnetic frequencies from the far-infrared to the ultra-violet.
Last year, OE REPORTS had an interview with Dr. Monte Ross of Laser
Data Technology Inc., in which he described his thoughts about the
search for extraterrestrial intelligence in the optical spectrum. At
that time, I was unaware of Dr. Ross's work. Last January, I had just
published electronically on Internet a very long paper on the subject
in this Electronic Journal. This was the six-part article in THE
ELECTRONIC JOURNAL OF THE ASTRONOMICAL SOCIETY OF THE ATLANTIC (EJASA,
Vol. 3, No. 6A-6F).
As a result of my electronic paper, during the summer I was asked
by Dr. David L. Begley of Ball Aerospace Systems Group to organize a
special session on Optical SETI (OSETI) for SPIE as part of the OE/LASE
'93 symposium. David Begley is the previous chairman of the Free-Space
Laser Communications conferences. The Optical SETI event was originally
planned to be a single session in SPIE's Free-Space Laser Communication
Technologies V conference, chaired by Dr. Stephen Mecherle of TRW, Inc.
Even though summer was a difficult time to start organizing a
conference, I was able to get so many papers at short notice that the
single session was extended into a dedicated conference with three
sessions and a separate published proceedings. The latter will be
available as SPIE Volume 1867 after the conference and will constitute
the first publication on this subject. The conference will be held
on January 21-22, 1993 at the Los Angeles Airport Hilton Hotel and
immediately follows the Free-Space Laser Communication Technologies V
conference. The Optical SETI conference cochair will be Monte Ross.
This event is effectively, though unofficially, the First International
Conference on Optical SETI.
This SETI event will be of particular interest to laser communi-
cations scientists and engineers. It presents the opportunity to help
resolve the dichotomy within NASA that while lasers are fine for GEO
to GEO, GEO to LEO, deep space, and interstellar communications, ETIs
would not use such technology to signal emerging technical civilizations
(us). The first session will bring the laser communications community
up to speed on microwave (conventional) SETI and general SETI related
matters. The second and third sessions are specifically devoted to
optical SETI topics. Many shades of opinion are included.
We are fortunate in being able to have Arthur C. Clarke kick off
this conference from his home in Sri Lanka. This will be a videotaped
address. These days, Clarke's health precludes extensive traveling. We
are also investigating the possibility that NASA Select TV could cover
the entire conference on a live or tape-delayed basis. If you cannot
attend this conference but would like to see it transmitted by NASA
Select, write to SPIE and NASA Headquarters requesting this coverage.
The more people lobby for this, the more likely is the cooperation of
the concerned parties. For those with a TVRO (TeleVision Receive Only)
satellite dish, NASA Select TV is available on Satcom F2R (72 W),
Transponder 13.
Among the 16 papers scheduled: Dr. David Brocker, who heads NASA's
High Resolution Microwave Survey, will give the keynote paper on NASA's
search for evidence of extraterrestrial technologies (Dr. Peter Backus
will now be presenting this paper). Drs. David Latham and David
Soderblom will discuss the strategies for the SETI star targeting
survey and Drs. Michael Klein and Samuel Gulkis from JPL will describe
the high-resolution all-sky survey. The "Grand Old Man" of SETI,
Dr. Bernard M. Oliver, who is extremely critical of the optical
approach, will demonstrate for the first time to the laser communi-
cations community why ETIs would not use lasers for SETI interstellar
communications. Professor Frank Tipler, a strong critic of SETI, will
explain why both microwave and optical SETI is a waste of time, since
he thinks that we are the first civilization in the Milky Way galaxy.
Philosopher Clive Goodall will rebut Frank Tipler's arguments, and
Noted philosopher Professor Neil Tennant will present his view of why
there could be major problems in actually decoding the message on an ETI
signal. This may be the first time that philosophers have presented
papers at a "technical" meeting on SETI, particularly one organized by
SPIE. Dr. Guillermo Lemarchand will describe both radio and optical
SETI activities in Argentina and give an account of the MANIA optical
SETI project devised by the late Professor Shvartsman of the former
Soviet Union. Drs. John Rather and Monte Ross (conference co-chairman)
will give accounts of their approaches to interstellar laser communi-
cations, while this author will present a review paper and describe the
amateur approach to optical SETI. There will be a discussion at the end
of the conference, moderated by Charles Townes, who earlier will talk
about his CO2 optical SETI laser work, and the CO2 OSETI observations
being conducted by Dr. Albert Betz on Mount Wilson.
Note that as with previous SETI publications, the latest book by
SETI pioneer Professor Frank Drake and Dava Sobel IS ANYONE OUT THERE?
hardly mentions the optical approach. This conference intends to
redress that omission. This "controversial" OSETI conference should be
a "fun" event but you do not need to be a laser communications engineer
or SETI scientist to attend - you only need a curiosity about "our"
place in the grand scheme of things.
With large telescopes, Optical SETI is the one branch of visible
astronomy, save for solar astronomy, that can be done during the day
under a clear blue sky!
Last October, we saw the celebration of the Quincentennial of
Christopher Columbus's voyage to the Americas and the official start
of NASA's Microwave Observing Project (MOP), recently renamed the High
Resolution Microwave Survey (HRMS). Numerous articles on SETI have
appeared in recent magazine publications, including the September 1992
issue of LIFE, the October issue of ASTRONOMY, and the November/December
issue of SMITHSONIAN AIR & SPACE. See also recent issues of TIME and
NEWSWEEK. The November issue of SKY & TELESCOPE has a long article
about microwave SETI and mentions the optical approach. This is
probably the first published popular account of modern OSETI in the
printed media. See the bibliography at the end of this article.
I have also begun the construction of what I believe to be the
world's first amateur optical SETI (AMOSETI) Observatory. This will be
based around the Meade 10-inch LX200 Schmidt-Cassegrain telescope, and is
one of the most advanced on the market today for use under computer and
CCD control. In the last paper of the conference, I will be reporting
on the amateur approach to Optical SETI and any work done to date on my
observatory system. In many respects, the approach adopted by the
author for AMOSETI is similar to that employed by Shvartsman and Beskin
in the MANIA project, i.e., looking for very short pulses rather than CW
beacon signals. It is possible that AMOSETI will lead to a renaissance
in amateur astronomy, where light pollution - the bane of astronomers -
has no effect on ETI detection sensitivity!
At this time during the sharp decline in the industrial-military
complex, can there be a more ennobling way for defense conversion - to
turn laser swords into SETI or CETI plowshares and help discover that we
are not alone within the Milky Way galaxy? Monte and I look forward to
seeing you at this conference at the rebirth of a new branch of science.
About the Author -
Stuart A. Kingsley is a fiber optic consultant and Director of the
world's first Amateur Optical SETI Observatory. He received a B.Sc.
Honors and Ph.D. in Electronic and Electrical Engineering from The
City University, London (1972) and University College London (1984),
respectively (England). He worked at Battelle Columbus Division as
Principal Research Scientist and then as Senior Research Scientist from
1981 to 1987. He has been involved in producing a variety of fiber-
optic sensors, including fiber-optic rotation sensors. He invented
the fiber-optic line-stretcher and fiber-optic line-squeezer phase
modulators that are now important components in fiber-optic sensor
systems. He shared a 1984 Rank Prize in Optoelectronics for pioneering
work on fiber-optic sensing.
Stuart's other professional interests include the possible health
effects of electromagnetic pollution and adverse effects from fluor-
escent lighting/VDT flicker. He is the author of 38 papers in fiber-
optics, mainly related to coherent systems and distributed fiber-optic
sensing, and several patents mainly in the area of coherent fiber-optic
systems. He is a member of the IEE, a British Chartered Engineer, a
senior member of IEEE and a member of Eta Kappa Nu Association. He
is also a member of The Planetary Society, the Columbus Astronomical
Society, and a former member of the Astronomical Society of Haringey
(ASH) in London.
CONFERENCE PROGRAM
OE/LASE '93
THE SEARCH FOR EXTRATERRESTRIAL INTELLIGENCE (SETI)
IN THE OPTICAL SPECTRUM
SPIE Proceedings Vol. 1867
Location: Los Angeles Airport Hilton Hotel, Los Angeles, California,
U.S.A.
Conference Chairman: Dr. Stuart A. Kingsley, Fiberdyne Optoelectronics.
Co-chair: Dr. Monte Ross, Laser Data Technology, Inc.
Room: Pacific A
SESSION 1 - INTRODUCTION AND CONVENTIONAL MICROWAVE SETI
Session Chairman - Dr. Stuart A. Kingsley, Fiberdyne Optoelectronics.
Thursday, January 21, 1993
Afternoon
1:20 to 5:00 pm
1:20 pm
Opening Remarks
Stuart A. Kingsley, Fiberdyne Optoelectronics
1.30 pm
"Let there be light"
(Videotaped Keynote Address)
Arthur C. Clarke
Chancellor - International Space University, Sri Lanka.
(1867-01)
2:00 pm
"The NASA search for evidence of extraterrestrial technologies"
(Keynote Paper)
David Brocker
Project Manager, HRMS
SETI Office
NASA Ames Research Center
(1867-02)
2:30 pm
"Strategies for SETI target selection"
Dr. David W. Latham and Dr. David R. Soderblom
Dr. David W. Latham
Harvard-Smithsonian Center for Astrophysics
Dr. David R. Soderblom
Associate Astronomer
Space Telescope Science Institute
(1867-03)
2:50 pm
"High-resolution microwave all-sky survey"
Dr. Michael J. Klein and Dr. Samuel Gulkis
Dr. Michael J. Klein
HRMS Program Manager
Jet Propulsion Laboratory
Dr. Samuel Gulkis
Jet Propulsion Laboratory
(1867-04)
3:10 to 3:30 pm
Coffee Break
3:30 pm
"SETI - a waste of time!"
(Invited Paper)
Professor Frank Tipler
Physics Department
Tulane University
(1867-05)
4:00 pm
"Using modern analytical philosophy (MAP) to sweep the MOP clean:
Non-optical reflections upon untapped data, bad arguments and the
nonexistence of Von Neumann interstellar probes."
Clive Goodall
Department of Philosophy
The Ohio State University
(1867-06)
4:30 pm
"The decoding problem: do we need to search for extra terrestrial
intelligence to Search for Extraterrestrial Intelligence?"
Professor Neil W. Tennant
Department of Philosophy
The Ohio State University
(1867-07)
5:00 pm
Combined reception for the authors from this conference and the
Free-Space Laser Communications V conference.
SESSION 2 - OPTICAL SETI I
Session Chairman - Dr. Monte Ross, Laser Data Technology, Inc.
Friday, January 22, 1993
Morning
8:30 to 11:45 am
----------------------------------------------------------------------
| Special Event |
| |
| 8:30 am |
| Technical attendees will have the opportunity to participate in a |
| 15-minute question/answer period with Arthur C. Clarke |
| (in Sri Lanka) via phone hook-up. |
----------------------------------------------------------------------
8:45 am
"Fundamental factors affecting the optimum frequency range for SETI"
(Invited Paper)
Dr. Bernard M. Oliver
Deputy Chief, NASA SETI Office
NASA Ames Research Center
(1867-08)
9:15 am
"The search for extraterrestrial intelligence (SETI) in the optical
spectrum and professional optical SETI: a review"
Dr. Stuart A. Kingsley
President
Fiberdyne Optoelectronics
(1867-09)
9:45 pm
"An economic rationale for extraterrestrials using lasers for SETI"
Dr. Monte Ross
President
Laser Data Technology, Inc.
(1867-10)
10:05 to 10:35 am
Coffee Break
10:35 am
"Infrared SETI"
Professor Charles H. Townes
Department of Physics
Space Sciences Laboratory
University of California, Berkeley
(1867-11)
11:05 am
"Use of lasers for interstellar beacons, communications and travel"
Dr. John Rather
NASA Headquarters
(1867-12)
11:25 am
"Optical SETI from the southern hemisphere"
Dr. Guillermo A. Lemarchand, Dr. Gregory M. Beskin,
Dr. Fernando R. Colomb, and Dr. Mariano Mendez
Dr. Guillermo A. Lemarchand
Visiting Fellow
Center for Radiophysics and
Space Research
Cornell University
Dr. Gregory M. Beskin
Special Astrophysical Observatory
Soviet Academy of Science
Dr. Fernando Raul Colomb
Director
Instituto Argentino de Radioastronomia
Dr. Mariano Mendez
Researcher
Observatorio Astronomico de La Plata
(1867-13)
11:45 am to 1:00 pm
Lunch
SESSION 3 - OPTICAL SETI II
Session Chairman - Dr. James R. Lesh, Jet Propulsion Laboratory
Friday, January 22, 1993
Afternoon
1:00 to 2:00 pm
1:00 pm
"Application of one measure of search merit to optical SETI"
Dr. D. Kent Cullers
Signal Detection Sub-System Manager
SETI Project
NASA Ames Research Center
(1867-14)
1:20 pm
"Large M-ary pulse position modulation and photon buckets for
effective interstellar communications"
Dr. Monte Ross
President
Laser Data Technology, Inc.
(1867-15)
1:40 pm
"Amateur optical SETI"*
Dr. Stuart A. Kingsley
President
Fiberdyne Optoelectronics
(1867-16)
"Recent progress in deep-space optical communication
(Proceedings Only)
Dr. James R. Lesh
Jet Propulsion Laboratory
(1867-17)
Workshop/Panel Discussion
2.30 - 4.30 pm
Moderator - Professor Charles H. Townes, 1964 Nobel Prize Laureate,
University of California, Berkeley.
Closing Remarks
4.30 pm
Stuart A. Kingsley, Fiberdyne Optoelectronics
Monte Ross, Laser Data Technology, Inc.
* The last conference paper will give preliminary details of the design of
the world's first Amateur Optical SETI Observatory, presently under
construction in the author's backyard.
---------------
To receive a copy of the Advance Technical Program from SPIE which
also provides information about registration, accommodation and costs to
attend this conference (see details below), contact Rosa Cays
(rosa@mom.spie.org) or Terry Montonye (terry@mom.spie.org) at:
SPIE
P.O. Box 10
Bellingham
WA 98227-0010
Tel: (206) 676-3290
Fax: (206) 647-1445
For more information, the conference organizer Stuart Kingsley can
be contacted at:
Fiberdyne Optoelectronics
545 Northview Drive
Columbus
Ohio 43209
Tel: (614) 258-7402
Fax: (614) 258-7459
OSETI Bulletin Board System (BBS): (614) 258-1710
Internet: skingsle@magnus.acs.ohio-state.edu
CompuServe: 72376,3545
OE/LASE '93 includes symposia over the period 16-23 January 1993 on the
following subjects:
Free-Space Laser Communications V (January 20-21, 1993).
The Search For Extraterrestrial Intelligence (SETI) in the Optical
Spectrum (January 21-22, 1993).
Laser Engineering (January 17-22, 1993).
Optoelectronic Processing and Interconnects (January 17-23, 1993).
Biomedical Optics '93 (January 16-22, 1993).
There are also educational short courses (January 17-22, 1993) and
two technical exhibitions, the Medical Exhibition (January 16-17, 1993),
and the Laser and Sensor Exhibition (January 19-21, 1993).
Registration
Member Working Non-
Group Member
Full Conference* $355 $380 $415
Author (full conf.) $290 $310 $340
One day $165 $175 $190
Author (one day) $140 $150 $165
Students (no lunch) $ 60 $N/A $ 70
*Rate for a three-day conference.
**There is no separate registration rate for the SETI conference.
Attendees for the SETI conference will have to pay for two days. If
you can spare the time, attendees are recommended to take in the
Wednesday morning and afternoon, and Thursday morning sessions of the
Free-Space Laser Communication Technologies V conference, as this
technology is very relevant to Optical SETI. The cost for the full
conference period (three days) is little more than for the two day OSETI
conference alone.
SPIE Proceedings Volume 1867 $ 35
These proceedings will also include a copy of Dr. Lesh's large
review paper on NASA's optical communications activities, which is to
be presented at the Free-Space Laser Communication Technologies V
conference.
Accommodation
Los Angeles Airport Hilton Hotel (OE/LASE '93 Conference Center)
5711 West Century Boulevard
Los Angeles, California 90045, USA
Tel: (310) 410-4000
Fax: (310) 410-6250
Rates:
Single or double (government) $81
Single or double $89 - $109
Los Angeles Airport Marriott Hotel
5855 West Century Boulevard
Los Angeles, California 90045, USA
Tel: (310) 641-5700
Fax: (310) 337-5358
Rates:
Single or double (government) $80
Single or double $85 - $105
Bibliography -
EJASA, Volume 3, Number 6, Parts 6A-6F, January 1992.
EJASA, Volume 4, Number 3, October 1992.
SKY & TELESCOPE, November 1992, pp. 513.
LASER FOCUS WORLD, November 1992, p. 5.
PHOTONICS SPECTRA, December 1992, p. 10.
OE REPORTS, December 1992, pp. 1 and 3.
COLUMBUS MONTHLY, January 1993, pp. 77-78, 80.
A VISIT TO CHINA
From November 2 to 7, 1992, ASA member Paul J. Wiita of GSU's
Department of Physics and Astronomy attended the "Workshop on
Accretion and Jets" at the Huazhong (Central China) Normal University
in Wuhan, on the mighty Yangtze (Yellow) River.
Over thirty-five Chinese astronomers from about one dozen
universities and observatories attended, along with one Japanese
and three American participants. Twelve invited and twenty-six
contributed oral papers were presented. Wiita gave two invited
lectures on "Observations and Theoretical Models for Microvariablity
in Active Galactic Nuclei", which were very well received.
When Professor Hanawa from Nagoya University had to leave early,
Paul was asked to give an additional talk on "The Propagation of Radio
Jets through Galactic Halos and the Intracluster Medium", which had to
be prepared from memory. This meeting was originally scheduled for
June 6 to 11 of 1989, but the confrontation in Tianamen Square in
the capital city of Beijing caused it to be postponed.
At the time, most Chinese seemed to feel free to discuss politics
in private, but were still wary of public conversations. Nevertheless,
Paul's introductory remarks indicating that he hoped all astronomers -
including the exiled leading astrophysicist Fang Lizhi - would be able
to participate in the next meeting in Wuhan drew strong applause.
The hospitality was extraordinary, with Professor Yang Lantian and
the other hosts providing all facilities, including sumptuous banquets
every lunch and dinner (not to mention massive breakfasts). A tour of
local attractions, including the huge East Lake with its many parks,
towers, and gardens and the 57-meter (180-foot) tall Yellow Crane
Pagoda was arranged for the participants.
After the meeting, Wiita and a few other lecturers went on a trip
to the ancient capital Xi'an (where the famous terra-cotta army of the
First Emperor is displayed), as well as to Beijing, and a visit to the
incomparable Great Wall.
All of the foreign participants were impressed with the economic
strides China has made over the past fifteen years. The standard of
living of the average person is clearly quite adequate. The shops are
full of a very wide range of goods, including VCRs, eight-millimeter
camcorders, and, most importantly, telescopes.
THE ELECTRONIC JOURNAL OF THE ASTRONOMICAL SOCIETY OF THE ATLANTIC
January 1993 - Vol. 4, No. 6
Copyright (c) 1993 - ASA
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