EEEEEEEEEEE   U         U    V           V   EEEEEEEEEEE
          E             U         U     V         V    E
          E             U         U      V       V     E
          EEEEEEE       U         U       V     V      EEEEEEE
          E              U       U         V   V       E
          E               U     U           V V        E
          EEEEEEEEEEE      UUUUU             V         EEEEEEEEEEE
---------------------------------------------------------------------------
              ELECTRONIC NEWSLETTER OF THE EUVE OBSERVATORY
---------------------------------------------------------------------------
Vol 4, No. 5                15 May 1994                    ISSN 1065-3597
---------------------------------------------------------------------------


Notes from the Editor
=====================
   by Brett A. Stroozas, Data Analysis Support Staff (DASS)
	and Archive Manager

   Welcome to the electronic newsletter for NASA's Extreme Ultraviolet Explorer
satellite (EUVE), which is compiled and published monthly by the EUVE Public
Science Archive group at the Center for EUV Astrophysics (CEA) in Berkeley,
CA.  As mentioned in the previous issue (v4.4, 12 April 1994), EUVE suffered
its first major hardware failure with the loss of its "B" side transmitter on
2 April.  The Flight Operations Team at Goddard Space Flight Center (GSFC)
quickly switched to the "A" side, insuring no loss of science data.  Except
for this incident, which continues to be investigated, the EUVE observatory
performed well throughout the month of April, completing observations of the
following Guest Observer (GO) targets:  MRK 421 (BL Lac), LB 1919 (WD), and
MRK 279 (AGN).
   The contents of this issue of the EUVE electronic newsletter are as follows:

  1. Notes on the Upcoming AAS Meeting
     1.1 EUVE User's Committee Meeting at AAS
     1.2 List of EUVE Abstracts for AAS
  2. Notes from the EUVE Guest Observer Center
     2.1 GO Program NRA Schedule Update
     2.2 Cycle II Dithered Target List
  3. Abstracts of Recently *Accepted* EUVE Papers
  4. Educational Outreach Activities at CEA
     4.1 NASA Astronaut Visits Bay Area
     4.2 Education Page in Mosaic
  5. Notes from the EUVE Science Archive
     5.1 Data Release List for June 1994
     5.2 CD-ROM Volume 2, Number 2 for AAS
     5.3 Status Report on EUVE Publications
     5.4 Accessing the Archive
  6. Job Listings at CEA

To comment on, make suggestions for, or request subscriptions to the EUVE
electronic newsletter, send e-mail to ceanews@cea.berkeley.edu (Internet).


1. Notes on the Upcoming AAS Meeting
====================================

1.1 EUVE User's Committee Meeting at AAS
----------------------------------------

   A special EUVE User's Committee meeting will be held at the 184th meeting
of the American Astronomical Society (AAS) in Minneapolis, MN during the week
of 29 May - 2 June 1994.  The User's Committee meeting is scheduled for the
lunch break on Tuesday, 31 May in Directors Row 3.  Planned topics of
discussion are a current update on EUVE and the ongoing efforts to extend the
EUVE mission.  Dr. Harry Shipman, chairman of the User's Committee, is the
coordinator of this meeting and will announce further information in the near
future.  The interest and input of the user community is extremely important
to the future of EUVE and we strongly encourage everyone to attend.
   PLEASE NOTE:  The meeting room is *incorrectly* noted in the final schedule
as Directors Row 1.  The correct location for this meeting is Directors Row 3
as mentioned above.

1.2 List of EUVE Abstracts for AAS
----------------------------------

   The following EUVE abstracts will be presented at the upcoming 184th AAS
meeting in Minneapolis, MN.  The abstracts have been listed by session and
abstract number; all those listed are poster displays except session 18 which
is oral:

  [05.03] THE FLARE-ONA OF 31 COMAE, T.R. Ayers and A. Brown
  [05.08] EUVE SPECTRA OF ALPHA AURIGAE (CAPELLA) AT DIFFERENT PHASES,
	A.K. Dupree, N.S. Brickhouse, G.A. Doschek, G.J. Hanson,
	and J.C. Raymond
  [05.10] CONSTRAINTS ON EUV SPECTRAL DIAGNOSTICS OF CAPELLA, N.S. Brickhouse,
	A.K. Dupree and J.C. Raymond
  [05.14] GHRS SPECTRA OF THE ACTIVE CHROMOSPHERE BINARY V711 TAU (HR 1099),
	R.C. Dempsey, J.E. Neff and J.L. Linsky
  [05.17] EUVE CORONAL SPECTROSCOPY OF THE RSCVN BINARIES SIGMA^2 CRB AND II
	PEG, A. Brown, J.L. Linsky and R. Dempsey
  [05.18] EMISSION LINES IN THE EUVE SPECTRA OF EQ PEGASI,
	B.C. Monsignori-Fossi, M. Landini, R. Pallavicini, and A. Fruscione
  [05.19] EUVE OBSERVATIONS OF A RARE IMPULSIVE FLARE ON EV LAC,
	C.W. Ambruster, A. Brown, B. Pettersen, and R.E. Gershberg
  [05.20] THE EUV ROTATION-ACTIVITY RELATION FOR LATE-TYPE STARS,
	M. Mathioudakis, A. Fruscione, J.J. Drake, K. McDonald, S. Bowyer,
	and R.F. Malina
  [05.21] THE SOLAR FIP EFFECT DETERMINED FROM FULL DISK OBSERVATIONS,
	J.M. Laming, J.J. Drake and K.G. Widing
  [05.22] THE FIRST MEASUREMENT OF STELLAR CORONAL ABUNDANCES:  THE ABSENCE OF
	THE FIP EFFECT IN THE CORONA OF PROCYON, J.J. Drake, J.M. Laming,
	K.G. Widing, J.H.H.M. Schmitt, B. Haisch, and S. Bowyer
  [07.01] CARBON-ENRICHMENT IN THE ATMOSPHERE OF THE COOL DO WHITE DWARF MCT
	0501-2858, S. Vennes, A.K. Pradhan, G. Fontaine, J. Dupuis,
	and F. Wesemael
  [07.08] EUV ABSORPTION SPECTROSCOPY OF THE DA WHITE DWARF STAR GD 394,
	H.L. Shipman and D.S. Finley
  [08.02] DETECTION OF THE BINARY MILLISECOND PULSAR J0437-4715 WITH THE
	EXTREME ULTRAVIOLET EXPLORER, J. Edelstein, R.S. Foster and S. Bowyer
  [08.05] EUVE OBSERVATIONS OF THE MIDDLE-AGED PULSAR PSR 0656+14, J.P. Finley,
	H. Ogelman and J. Edelstein
  [11.02] EUVE SPECTROGRAPHIC RESULTS ON THE BL LAC OBJECT PKS 2155-304,
	C. Hwang, S. Bowyer, S. Kahn, and A. Konigl
  [18.04] A SATELLITE OPERATIONS CLASS FOR TEACHERS, I. Hawkins, S. Lea,
	R. Battle, J. Moriarta, and R.F. Malina
  [18.05] ELECTROMAGNETIC RADIATION:  A CURRICULUM UNIT FOR HIGH SCHOOL
	STUDENTS, N. Levandovsky, I. Hawkins and R.F. Malina
  [28.06] THE SECOND EUVE SOURCE CATALOG, J. Lewis, S. Bowyer, M. Lampton,
	X. Wu, R. Lieu, J. Drake, and R.F. Malina
  [29.01] EVIDENCE FOR HOMOGENEOUS IONIZATION OF HELIUM IN THE LOCAL
	INTERSTELLAR MEDIUM FROM EUVE SPECTROSCOPY OF HOT DA STARS, J. Dupuis,
	S. Vennes, S. Bowyer, A.K. Pradhan, and P. Thejll
  [29.14] THE FIRST DIRECT MEASUREMENT OF THE THERMAL PRESSURE OF THE HOT
	INTERSTELLAR MEDIUM, R. Lieu, S. Bowyer, M. Lampton, S.D. Sidher,
	and J. Knude
  [45.03] EUVE OBSERVATIONS OF CATACLYSMIC VARIABLES, J. Warren, J.V. Vallerga
	and O.H.W. Siegmund
  [45.04] EUVE OBSERVATIONS OF SS CYGNI, C.W. Mauche, J.C. Raymond,
	J.V. Vallerga, J.K. Warren, and J.A. Mattei
  [45.06] EXTREME ULTRAVIOLET OBSERVATIONS OF THE MAGNETIC CATACLYSMIC VARIABLE
	RE1149+28, S.B. Howell, M. Sirk and J. Mittaz
  [45.07] EUVE SPECTRAL OBSERVATIONS OF A FLARE ON AD LEONIS, S.L. Cully,
	G.H. Fisher, S.L. Hawley, and T. Simon
  [47.02] ANALYSIS OF THE EUVE SURVEY OBSERVATIONS OF NOVA CYGNI 1992,
	J. MacDonald and S. Vennes


2. Notes from the EUVE Guest Observer Center
============================================

2.1 GO Program NRA Schedule Update
----------------------------------
	by Anne Miller, EGO Center Technical Writer

   The dates for release of the next EUVE NASA Research Announcement (NRA),
and the projected deadline for proposal submission, have been revised to avoid
conflict with the schedules for other NRAs.  The new dates are:

        NRA release:		15 Jun 1994
        Proposal due date:	16 Sep 1994
        Peer Review:		Nov 1994
        Start of observations:	Feb 1995

These dates supersede those published in the last issue of this newsletter
(v4.4, 12 April 1994).  They remain *tentative*, and are subject to change.

2.2 Cycle II Dithered Target List
---------------------------------
	by Eric Olson, EGO Support Manager

   It has been known for some time that the EUVE spectrometer detectors exhibit
a characteristic fixed-pattern-noise (FPN) that results when the locations of
photon events near the boundaries of "bundles" of micro-channel fibers in the
EUVE micro-channel plate detectors are shifted.   Because EUVE sees so few
EUV-bright sources, the probability is very small for accumulating sufficient
events to generate a flat-field which would remove all of the variations caused
by the FPN.  Recent tests, however, indicate that it is possible to alleviate
much of the FPN by pointing the spectrometer at a series of randomly chosen
locations near the target, rather than at a single RA/Dec for the entire
observation.  This technique is known as "dithering".  Enclosed below is the
list of Cycle II targets that are being considered for dithered observations.
For more information on FPN and the dithering technique, contact the EGO Center
(egoinfo@cea.berkeley.edu).  For information on or comments regarding dithered
observations, contact Eric Olson at CEA or Dr. Ron Oliversen at GSFC.

                  Cycle II Dithered Target List

      Target               RA J2000     Dec J2000
       Name               (hh:mm:ss)    (dd:'':"")   Notes
   ---------------------  ------------ ------------- -----
   EU1032+53.4            10:32:10.00   53:29:11.0   r
   EU2214-49.3            22:14:12.00  -49:19:26.0   r
   EUVEJ0326+28.7         03:26:35.10   28:42:59.3   g   e
   EUVEJ0516+45.9         05:16:41.30   45:59:53.0   g o e
   EUVEJ0622-17.9         06:22:41.90  -17:57:21.5   r o
   EUVEJ0658-28.9         06:58:37.50  -28:58:19.6   r o
   EUVEJ0739+05.2         07:39:20.40   05:14:21.2   g o e
   EUVEJ0743+28.8         07:43:18.70   28:53:12.1   g   e
   EUVEJ1334+37.1         13:34:47.40   37:10:57.1   g   e
   EUVEJ2337+46.4         23:37:33.00   46:27:50.5   g   e
   EUVE_J0030-63.4        00:29:56.60  -63:24:57.1   r
   EUVE_J0715-70.4        07:15:10.00  -70:24:44.0   r
   FEIGE24                02:35:07.58   03:43:56.1   r
   G191_B2B               05:05:30.00   52:49:53.0   r o
   GD659                  00:53:18.00  -33:01:00.0   r
   GD80                   06:54:13.96  -02:09:23.96  r
   GD_246                 23:12:22.00   10:47:04.0   r
   J1316+29.0             13:16:22.60   29:05:38.0   r o *
   LB1628                 02:30:52.49  -47:55:26.4   g   f
   LB1919                 10:59:14.60   51:24:28.0   r o
   LVC_88_+36_-2          17:05:04.71   59:17:00.0   r
   RE2009-60              20:09:06.20  -60:25:30.0   r
   RE_0623-374            06:23:12.50  -37:41:29     r o
   SS_CYG                 21:42:42.30   43:35:08.0   r
   UZ_FOR                 03:35:29.00  -25:44:26.0   r
   V471_TAU               03:47:33.40   17:14:48.0   r
   VW_HYI                 04:09:11.30  -71:17:42.0   r
   WD_0131-163            01:34:24.29  -16:06:53.7   r

   Notes:
	r = Recommended by CEA
	g = Recommended by GO
	o = Observation completed or in short term schedule
	e = Emission line source
	f = Faint continuum source
	* = To be observed again


3. Abstracts of Recently *Accepted* EUVE Papers
===============================================

   Included below are abstracts of EUVE-related papers recently *accepted*
for publication.  GOs are encouraged to contribute *accepted* abstracts for
inclusion in future editions of this newsletter and for posting under the EGO
Center Mosaic "Home Page".  All abstracts should be sent to
egoinfo@cea.berkeley.edu.
   For those papers authored by CEA scientists, the EUVE publication number is
indicated.  Unless otherwise noted, researchers may obtain (p)reprints of these
papers by sending an e-mail request along with the publication number(s) of
interest to pub@cea.berkeley.edu.

     --------------------------------------------------------------

THE EUV SPECTRUM OF AU MIC:  TEMPERATURE AND DENSITY DIAGNOSTIC FROM EUVE
  SPECTROMETER OBSERVATIONS
B.C. Monsignori Fossi and  M. Landini
To appear in Astronomy and Astrophysics.

   EXOSAT and IUE observations of the active star AU Mic are used to develop
a model of the differential emission measure distribution (DEM) versus
temperature.  The signals detectable by the Extreme UltraViolet Explorer
Spectrometers are predicted.  The computation indicates the presence of
several highly ionized iron lines in the EUV spectral region.  These lines
are identified in the observations of AU Mic performed by the Short (70-190 A)
and Medium (140-380 A) Wavelength Spectrometers on EUVE.  Using the recorded
EUVE spectra a more accurate DEM model for the transition region and corona
of the star has been evaluated and using density sensitive lines an upper
limit on the electron density has been put.

     --------------------------------------------------------------

EUVE SPECTROSCOPY OF EPSILON CMA (B2 II) FROM 70 A TO 730 A
J.P. Cassinelli, D.H. Cohen, J.J. MacFarlane, J.E. Drew, A.E. Lynas-Gray,
  M.G. Hoare, J.V. Vallerga, B.Y. Welsh, P.W. Vedder, I. Hubeny, and T. Lanz
To appear in The Astrophysical Journal.

   We present spectra of the brightest stellar source of extreme ultraviolet
(EUV) radiation longward of 400 A, the B2 II star, Epsilon CMa.  These data were
taken with the three spectrometers aboard the NASA Extreme Ultraviolet Explorer
satellite (EUVE) during the first cycle of pointed observations.  We report
on our initial studies of the continuum and line spectrum of the stellar
photosphere in the 320 to 730 A region, and on the wind emission lines observed
in the 170-375 A region.  This is the first EUV spectrum of an early-type star,
and thus makes Epsilon CMa the most comprehensively observed B star from the
X-ray to infrared regimes.
   The radiation in both the H Lyman continuum and HeI continuum (shortward of
504 A) are found to be significantly greater than predicted by both LTE and
non-LTE model atmospheres.  Since Epsilon CMa also exhibits a mid-infrared
excess, this points to the outer layers being warmer than the models indicate.
The anomalously large Lyman continuum flux, combined with the very low column
density measured in the direction towards this star implies that it is the
dominant source of hydrogen ionization of the local interstellar medium in the
immediate vicinity of the sun.  All of the lines predicted to be strong from
model atmospheres are present and several wind absorption features are also
identified.  We have detected emission lines from highly ionized iron, ranging
from Fe^8 to Fe^15, which arise in the X-ray producing region.  The lines are
consistent with the ROSAT PSPC observations if a multi-temperature emission
model is used, and the assumption is made that there is significant absorption
beyond that of the neutral phase of the ISM.  The EUV spectrum shows a strong
HeII Lyman-alpha emission at 304 A.  This line cannot be formed in the upper
regions of the photosphere, but rather is due to the recombination of He++,
which is itself produced by the X-ray and EUV (lambda < 228 A) radiation
present in the outer atmosphere.  The spectrum also shows strong OIII 374 A
line emission produced by the Bowen fluorescence mechanism, which has not
previously been observed in the spectra of hot stars.

Keywords:  stars:  early type, individual (Epsilon CMa), photospheres, winds,
        shocks -- extreme ultraviolet:  spectroscopy -- Bowen fluorescence
        -- interstellar medium:  local, ionization

     --------------------------------------------------------------

INTERSTELLAR MEDIUM CONTINUUM, AUTOIONIZATION, AND LINE ABSORPTION IN THE
  EXTREME ULTRAVIOLET
T. Rumph, S. Bowyer, and S. Vennes
To appear in The Astronomical Journal.  [CEA Publication #584.]

   We provide a new estimate of the effective absorption cross section of the
interstellar medium at extreme ultraviolet wavelengths.  The cross section for
neutral helium is discussed in detail.  Two spectral features of interstellar
neutral helium, the 504 A ionization edge and the autoionization resonance
feature at 206 A, are detectable with existing instrumentation.  Measurements
of the autoionization feature in continuum sources will provide a direct
estimate of the intervening neutral helium column; in many cases this will be
the only method to obtain this parameter.  Although continuum metal opacities
are negligible at wavelengths greater than 50 A, we find that metal line
features should be detectable in continuum sources with high signal to noise
observations.  A selection of some of the most prominent lines expected is
provided.

     --------------------------------------------------------------

EUVE OBSERVATIONS OF THE MOON
G. Randall Gladstone, John S. McDonald, William T. Boyd, and Stuart Bowyer
To appear in Geophysical Research Letters, 21(6), pp. 461-464, 1994.  [CEA
  Publication #583.]

   During its all-sky survey, the Extreme Ultraviolet Explorer (EUVE) satellite
observed the Moon several times at first and last quarters, and once near the
lunar eclipse of December 10, 1992.  We present here a portion of this data, in
the form of extreme-ultraviolet (EUV) images of the Moon and derived geometric
albedos.  Extreme ultraviolet observations of the Moon are of considerable
interest, since it has been speculated that lunar EUV emissions may be dominated
by L- and M-shell X-ray fluorescence and may provide a useful diagnostic of
surface elemental abundances.  From the EUVE photometer data we obtain average
geometric albedos of 0.15% (+/- 0.03%), 3.1% (+/- 0.3%), and 3.5% (+/- 0.3%),
over wavelength intervals of 150-240 A, 400-580 A, and 550-650 A, respectively.
An upper limit geometric albedo of 0.13% is obtained for the wavelength
interval 75-180 A.  Also, using previously published ROSAT data, we estimate a
lunar geometric albedo of 0.014% (+/- 0.002%) over the wavelength interval
50-80 A.  These EUV albedos (and previously published far-ultraviolet albedos)
are well fit by the scaled reflectivities of SiO_2 and Al_2O_3.  Over the
wavelength ranges of the EUVE photometers, the observed brightness of the Moon
seems to be largely consistent with reflected sunlight rather than X-ray
fluorescence.  Since the L- and M-shell fluorescence signal is expected to be
carried by only a small number of emission lines, however, it will require EUV
observations of higher spectral resolution to determine their exact
contribution, if any, to the lunar EUV spectrum.

     --------------------------------------------------------------

A CME MODEL FOR THE 1992 JULY 15 FLARE ON AU MICROSCOPII OBSERVED BY EUVE
Scott L. Cully, George H. Fisher, Mark J. Abbott, and Oswald H.W. Siegmund
To appear in The Astrophysical Journal.  [CEA Publication #581.]

   The dM1e flare star AU Microscopii (AU Mic) was observed by the EUVE Deep
Survey Instrument on 1992 July 14-18. A large flare was detected in the Deep
Survey Lexan/Boron (DS Lex/B) (65-190 A) band and the SW (70-190 A) and MW
(140-380 A) spectrometers. The flare consisted of a sharp impulsive peak
lasting approximately 2 hours followed by a decaying tail lasting about a day.
We present a simple, single temperature, dynamic model for the flare decay
which is consistent with the the DS Lex/B light curve and reproduces the
strongest, high temperature spectral lines in the released EUVE spectra.  In
this model, we assume the long decay time is due to an ejected, magnetically
confined, low beta plasmoid expanding self similarly in the ambient medium in
a manner reminiscent of solar coronal mass ejections.  We demonstrate that the
long tail of the DS Lex/B light curve can be explained by rapid expansion,
causing the plasma to become tenuous sufficiently quickly that it avoids
catastrophic radiative cooling.  From this model, we estimate the mass of the
plasmoid to be  1e20 g and the total energy of the event to be  1e36 ergs.
These values are approximately 1e4 times as large as those seen during the
largest solar CME events.  We argue that the results of our model are consistent
with other measurements of stellar flare parameters.  We also estimate a mass
loss rate of a few times 10-13 M_Solar yr^(-1) and discuss the role of mass
loss from dMe stars in the mass balance of the interstellar medium.  We estimate
the rotational braking time scale from these events to be less than 500 million
years and suggest that CME's may be an important source of angular momentum
loss from late type stars.

     --------------------------------------------------------------


4. Educational Outreach Activities at CEA
=========================================
	by Dr. Isabel Hawkins, CEA Scientist

4.1 NASA Astronaut Visits Bay Area
----------------------------------
   The CEA Education Outreach Program, headed by Dr. Isabel Hawkins, had the
pleasure of hosting a 1-day visit by NASA Astronaut Jeffrey A. Hoffman, the
astrophysicist who put eyeglasses on the Hubble Space Telescope (HST).
   Dr. Hoffman's schedule included an informal lunch with old friends from
Harvard and MIT and a tour of CEA where he interacted with CEA scientists
and staff, obtaining a close look at EUVE data and a hands-on introduction
to Mosaic.
   After a technical presentation at CEA to an audience of eighty University
of California, Berkeley, faculty and staff, Astronaut Hoffman shared his
experiences during dinner with a group of thirty teachers, high school
students, and other professional educators.
   The last event of the day was a nontechnical presentation by Dr. Hoffman
entitled "THE ULTIMATE ROADSIDE REPAIR" which took place at the Lawrence Hall
of Science.  This event, for an audience of 300 people, was sponsored jointly
by CEA and the Lawrence Hall of Science.  During his presentation, which
included spectacular film-footage, Astronaut Hoffman gave a firsthand account
of the capture and repair of HST.  During an 11-day flight of the Space Shuttle
Endeavour in December 1993, the HST was restored to full capacity through a
record-setting five space walks by Dr. Hoffman and his fellow astronauts.
After his presentation, Dr. Hoffman answered questions from the public and
signed autographs.

4.2 Education Page in Mosaic
----------------------------
   The Education Outreach Program at CEA will release its Mosaic page within
the next few weeks.  See the CEA Home Page (http://ftp.cea.berkeley.edu)
for more details.


5. Notes from the EUVE Science Archive
======================================
	by Brett A. Stroozas, DASS/Archive Manager

5.1 Data Release List for June 1994
-----------------------------------

   The table below lists the GO observations which become public on 1 June
1994.  For each entry is given the target name, the approximate exposure time
in kiloseconds, the GMT start and end date(s) for the observation, the spectral
type of the target, an indication of which (if any) EUVE CD-ROM on which the
observation appears, and the data identification code.  All public data sets
may be ordered from the archive via CEA electronic or postal mail.  Please be
sure to include in your order the DataID(s) of interest.

   ======================================================================
    Target      ~Exp      Observation Date(s)    SpT       CD-ROM  DataID
     Name      (ksec)    Start           End
   ======================================================================
   31_COM         73  11 Feb 1993 - 13 Feb 1993  G0II        ----  go0028
   AD_LEO         90   1 Mar 1993 -  3 Mar 1993  M4.5        2.2b  go0029
   ALPHA_CEN_A    24  31 May 1993 -  1 Jun 1993  G0          ----  go0031
   ALPHA_CEN_A    30   7 Jun 1993 -  8 Jun 1993  G0          ----  go0032
   ALPHA_CEN_A    55  29 May 1993 - 31 May 1993  G0          2.2b  go0030
   AN_UMA         45  27 Feb 1993 -  1 Mar 1993  CV          2.2c  go0033
   AU_MIC         52  22 Jul 1993 - 23 Jul 1993  M1e         ----  go0034
   EPSILON_CMA    65  16 Jan 1993 - 18 Jan 1993  B2I         2.2c  go0035
   JUPITER        65  30 Mar 1993 -  1 Apr 1993  SS          2.2c  go0036
   MCT2153-4156    2   8 Aug 1993 -  8 Aug 1993  WD          ----  go0037
   PSR0656+14    104  30 Jan 1993 -  3 Feb 1993  Puls        ----  go0038
   RE0515+324     71  24 Jan 1993 - 26 Jan 1993  WD          ----  go0039
   RE1027+322    108   4 Mar 1993 -  8 Mar 1993  NOID        ----  go0040
   RE1032+532     56   3 Feb 1993 -  5 Feb 1993  WD          ----  go0041
   RE1149+284     71  22 Feb 1993 - 25 Feb 1993  NOID        ----  go0042
   WD1254+223     28   5 Apr 1993 -  6 Apr 1993  WD          ----  go0044
   WD1254+223     55   9 Feb 1993 - 11 Feb 1993  WD          2.2a  go0043
   WD1620-391      3   2 Jul 1993 -  2 Jul 1993  WD          ----  go0047
   WD1620-391     53  19 May 1993 - 21 May 1993  WD          ----  go0045
   WD1620-391     54  30 Jun 1993 -  2 Jul 1993  WD          ----  go0046
   WD1845+019      2  15 Jun 1993 - 16 Jun 1993  WD          ----  go0048
   WD1845+019     31  22 Jun 1993 - 23 Jun 1993  WD          ----  go0049
   WD2309+105     28  30 Aug 1993 - 31 Aug 1993  WD          ----  go0050
   YZ_CMI         75  25 Feb 1993 - 27 Feb 1993  M4.5        ----  go0051
   ======================================================================

5.2 CD-ROM Volume 2, Number 2 for AAS
-------------------------------------

   Volume 2, Number 2 (A/B/C) of the EUVE CD-ROM series will be distributed at
the upcoming AAS meeting.  This set of CDs contains nine selected spectrometer
observations, arranged thematically on three discs:  disc A contains the three
white dwarfs HZ43 (observed 18-19 February 1993, ~40 ksec), WD1254+223 (9-11
February 1993, ~55) and WD2309+105 (27-28 September 1992, ~55); disc B contains
the three late-type stars AD Leo (1-3 March 1993, ~90), alpha Cen A (29-31 May
1993, ~55) and sigma Gem (6-7 February 1993, ~55); and disc C contains the
Cataclysmic Variable AN UMa (27 February - 1 March 1993, ~45), the early-type
star epsilon CMa (16-18 January 1993, ~65) and the planet Jupiter (30 March -
1 April 1993, ~65).  Also included are EUVE images, simulations, animations,
videos, publications, and a variety of mission-related documents.  All EUVE
CD-ROMs may be ordered from the Archive via electronic and postal mail; the
DataIDs for Volume 2, Number 2 (A/B/C) are cdrom2.2a, cdrom2.2b and cdrom2.2c,
respectively.

5.3 Status Report on EUVE Publications
--------------------------------------

   As of April 1994 CEA is aware of a total of 68 EUVE publications that have
appeared in the literature.  These publications are broken down in the table
below:  "RJ" indicates a refereed journal and "NRJ" indicates a non-refereed
one; non-CEA indicates publications by non-CEA scientists (i.e. Guest Observers)
and CEA indicates those by CEA scientists (which includes both Guest Observer
and sky survey science).

			RJ	NRJ    TOTAL
			--	---    -----
	non-CEA		 8	 3	11
	CEA		38	19	57
	---------	--	--	--
	TOTAL		46	22	68

The Archive is generating a bibliography of EUVE publications which will be
available in the Archive section within CEA Mosaic.  Again, we encourage GOs
to send abstracts of their papers to the EGO Center (egoinfo@cea.berkeley.edu).

5.4 Accessing the Archive
-------------------------

   Listed below are the various methods for accessing EUVE archival material:

 o CEA WWW Server:
	http://ftp.cea.berkeley.edu		(Mosaic/lynx remotely)
	telnet ftp.cea.berkeley.edu 200	(lynx locally at CEA)
 o NASA's ADS (general and account information):
	http://adswww.colorado.edu/adswww/adshomepg.html	(Mosaic/lynx)
	ads@cuads.colorado.edu
 o CD-ROM Series:  Volumes 1.1, 2.1, and 2.2 (seven separate CDs) available
 o e-mail:  archive@cea.berkeley.edu
	(include word "help" -- quotes omitted -- as body of message)
 o anonymous FTP (or gopher):  ftp.cea.berkeley.edu
 o EUVE Electronic Newsletters:  ceanews@cea.berkeley.edu (to subscribe)
 o Postal Mail:
		The EUVE Public Science Archive
		Center for EUV Astrophysics
		2150 Kittredge St.
		Berkeley, CA  94720
		510-642-3032 (voice) or 510-643-5660 (fax)
		archive@cea.berkeley.edu


6. Job Listings at CEA
======================
	by Cathie Jones, CEA Personnel Manager

   CEA is currently accepting applications for the following job positions.

     --------------------------------------------------------------

Postgraduate/Assistant Research  (depending on experience)
University of California
Center for EUV Astrophysics
Attn:  Cathie Jones/Personnel
2150 Kittredge St.
Berkeley,  CA  94720

   The Extreme Ultraviolet Explorer (EUVE) Program at the Center for EUV
Astrophysics, of the University of California, Berkeley, has opening for a
Research Scientist.  Successful applicant will support the acquisition, and
reduction of pointed data from the EUVE satellite.  Duties will include
monitoring the progress of observation scheduling and data acquisition,
pipeline processing and data reductions and analysis.  The researcher will
assist Guest Investigators, through the Guest Observer program and the EUVE
Archive program, in understanding the performance of the EUVE scientific
instruments as well as provide scientific advice regarding use of the EUVE
spectrometer analysis packages, written primarily in IRAF.  Additional duties
will involve assisting in the development of complex data analysis algorithms
and models, to be made available to the Guest Investigator community in the
EUVE IRAF packages and EUVE public archive.
   The work will be performed under the direction of the EUVE Science Support
Project Manager, and will interact with the associated science and programming
staff in the EUVE Public Archive and Guest Observer Center.  A fraction of time
(10%) will be available to allow pursuit of independent research.
   Applicants must have a Ph.D. in astronomy, physics, or a related field.
Experience supporting NASA Archival Research, Guest Observer, and Guest
Investigator programs required.  Experience in satellite or ground-based
astronomical data analysis and the ability to carry out research in the field
of EUV astronomy is highly desirable.  Experience with IRAF would be most
helpful.
   Applications should include a curriculum vitae, bibliography and three
letters of recommendation and should be submitted by April 30, 1994.  EOE/AAE.

     --------------------------------------------------------------

Staff Research Associate I
Box 03-144-10
Personnel Office
University of California
2200 University Ave.
Berkeley,  California   94720

   The Center for Extreme Ultraviolet Astrophysics, seeks applicants for the
position of Staff Research Associate I.  Duties include support of astronomical
research and data acquisition, reduction, and analysis for the Extreme
Ultraviolet Explorer (EUVE) Satellite Project.  Work will be related to the
reduction of EUVE science data.  The Staff Research Associate will assist
scientists in the development and application of data analysis programs to data
taken using ground-based astronomical instruments.  Process data from raw
telemetry into time-tagged photon files and spectra.  Monitor processing flow,
involvement in processing Guest Observer multispectral data into primary and
secondary products.  Other duties include producing documentation of results,
and publication support assisting in the simulation of scientific data related
to the EUVE Satellite Project.
   Qualifications:  Background in Astronomy, Physics or other applicable
science, plus experience in the kind of work to be performed is required.
Demonstrated knowledge of general astronomical data reduction and acquisition
techniques is required.  Experience with FORTRAN or C programming is required.
Knowledge of the IRAF system and packages required.  Knowledge of UNIX
operating system is highly desired.
   Applications should include a curriculum vitae and names of three references
and be submitted promptly. Position is open until filled.  No resumes will be
accepted after May 25, 1994.

---------------------------------------------------------------------------
The EUVE Electronic Newsletter is issued by the Center for Extreme Ultraviolet
Astrophysics, University of California, Berkeley, CA 94720, USA.  The opinions
expressed are those of the authors.  EUVE Principal Investigators and Newsletter
Publishers:  Drs. R.F. Malina and C.S. Bowyer.  EGO and Archive Science Manger:
C.A.  Christian.  Archive Manager and Newsletter Editor:  B.A. Stroozas.  Funded
by NASA contracts NAS5-30180 and NAS5-29298.  Send newsletter correspondence
to:  ceanews@cea.berkeley.edu.  The EUVE project is managed by NASA's GSFC.
The GSFC Project Manager:  Paul Pashby, Project Scientist:  Dr. Yoji Kondo,
Deputy Project Scientist:  Dr. Ronald Oliversen.  NASA HQ Program Scientist:
Dr. Robert Stachnik, Deputy Program Scientist:  Dr. D. Buzasi, Program Manager:
Dr. G. Riegler.  GSFC Project Operations Director:  Mr. Kevin Hartnett.
Information on the EUVE Guest Observer Program is available from:  Dr. Y.
Kondo, Mail Code 684, GSFC, Greenbelt, MD 20771 at (301) 286-6247 or e-mail to
euve@stars.span.nasa.gov.
END-----------EUVE------------ELECTRONIC---------------NEWS-------------END

[HomePage] [Email] [Search] [Glossary]

Page created by webmastr@cea.berkeley.edu
Last modified 10/4/97