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The SOLVE-THESO 2000 papers are divided into two special issues. In addition, other papers are included that were either published independently by SOLVE-THESO 2000 investigators, or are strongly related to SOLVE-THESO 2000 science questions for the winter of 1999-2000.
This list is NOT coordinated with AGU. The accuracy of each reference is the responsibility of the manuscript's first author.
Holger BremerM. von Koenig, A. Kleinboehl, H. Kuellmann, K. Kuenzi,
K. Bramstedt, J.P. Burrows, K.-U. Eichmann, M. Weber, and A.P.H. Goede
Ozone
Depletion Observed by ASUR during the Winter 1999/2000
Accepted
hbremer@uni-bremen.de
Kenneth S. CarslawJamie Kettleborough, Megan J. Northway, Stewart Davies, Ru-Shan Gao, David W. Fahey, Darrel G. Baumgardner, Martyn P. Chipperfield, Armin Kleinbohl,
Stewart DaviesModeling the Effect of Denitrification on Arctic Ozone
Depletion during Winter 1999/2000
Submitted
stewart@env.leeds.ac.uk
Andreas DÖrnbrackThomas Birner, Andreas Fix, Harald Flentje, Alexander
Meister Heidi Schmid, Edward V. Browell, Michael J. Mahoney
Evidence for Inertia-Gravity Waves Forming Polar Stratospheric Clouds
over Scandinavia
Accepted
andreas.doernbrack@dlr.de
Katja DrdlaM.R. Schoeberl, and E.V. Browell.
Microphysical
modelling of the 1999-2000 Arctic winter: 1. Polar stratospheric clouds,
denitrification, and dehydration
In review
katja@katja.arc.nasa.gov
Sophie GodinM. Marchand, A. Hauchecorne, and F. Lefèvre
Influence of Arctic polar ozone depletion on lower stratospheric ozone
amounts at Haute-Provence Observatory (44°N, 6°E)
Accepted
sophie.godin@aero.jussieu.fr
Jeffery B. GreenblattDefining
the Polar Vortex Edge Using an N2O:Potential Temperature Correlation
In review
buygreen@splash.Princeton.EDU
Jens-Uwe GrooßG. GÜnther, P. Konopka, R. MÜller, D.
S. McKenna, F. Stroh, B.Vogel, A. Engel, M. M"uller, K. Hoppel, R. Bevilacqua,
E. Richard, C.R. Webster, J.W. Elkins, D.F. Hurst, P.A. Romashkin, D.G.
Baumgardner
Simulation
of Ozone Depletion in Spring 2000 with the Chemical Lagrangian Model of
the Stratosphere (CLaMS)
In review
j.-u.grooss@fz-juelich.de
Tom F. HaniscoJ. B. Smith, R. M. Stimpfle, D. M. Wilmouth, K. K. Perkins,
J. R. Spackman, J. G. Anderson, D. Baumgardner, B. Gandrud, C. R. Webster,
S. Dhaniyala, K. A. McKinney, and T. P. Bui.
Quantifying
the rate of heterogeneous processing in the Arctic polar vortex with in
situ observations of OH
In review
tfh@huarp.harvard.edu
N. R. P. HarrisComparison of Empirically Derived Ozone
Losses in the Arctic Vortex
Accepted
Neil.Harris@ozone-sec.ch.cam.ac.uk
Alain HauchecorneSophie Godin, Marion Marchand, Birgit Heese and Claude
Souprayen
Quantification of the Transport of Chemical Constituents from the Polar
Vortex to Middle Latitudes in the Lower Stratosphere Using the High-Resolution
Advection Model MIMOSA and Effective Diffusivity
Accepted
alain.hauchecorne@aerov.jussieu.fr
Karl W. HoppelRichard Bevilacqua, Gerald Nedoluha, Carole Deniel, Franck
Lefvre, Jerry Lumpe, Mike Fromm, Cora Randall, Joan Rosenfield, Markus
Rex
POAM III Observations of Arctic Ozone Loss for the 1999/2000 Winter
text
figures
Accepted
Karl.Hoppel@nrl.navy.mil
Dale HurstS. M. Schauffler, J. B. Greenblatt, H. Jost, R. L Herman,
J. W. Elkins, P. A. Romashkin, E. L. Atlas, S. G. Donnelly, J. R. Podolske,
M. Loewenstein, C. R. Webster, G. J. Flesch, and D. C. Scott,
The Construction
of a Unified, High-Resolution Nitrous Oxide Data Set for ER-2 Flights during
SOLVE
Accepted
Dale.Hurst@noaa.gov
Eric JensenImpact
of Polar Stratospheric Cloud Particle Composition, Number Density, and
Lifetime on Denitrification
In review
ejensen@sky.arc.nasa.gov
Ulf KleinIngo Wohltmann, Kai Lindner, Klaus F. Kuenzi
Ozone Depletion
and Chlorine Activation in the Arctic Winter 1999/2000 Observed in Ny-Ålesund
Accepted
ingo@iup.physik.uni-bremen.de
BjÖrn M. KnudsenComparison of Stratospheric Long-Duration Balloon
Data in February and March 2000 with Analysis Temperatures and Trajectories
In review
bk@dmi.dk
Jerry D. LumpeComparison of POAM III Ozone Measurements
with Correlative Aircraft and Balloon Data during SOLVE
Accepted
lumpe@cpi.com
Beiping LuoLarge Stratospheric Particles Observed by Lidar during the
SOLVE Mission
In review
luo@mpch-mainz.mpg.de
Claudio PianiTransport of Ozone Depleted Air on Breakup
of the Stratospheric Polar Vortex in Spring/Summer 2000
Accepted
cpiani@atm.ox.ac.uk
Cora E. RandallJ. D. Lumpe, R. M. Bevilacqua, K. W. Hoppel, M. D. Fromm,
R. J. Salawitch, W. H. Swartz, S. A. Lloyd, E. Kyro, P. von der Gathen,
H. Claude, J. Davies, H. DeBacker, H. Dier, M.J. Molyneux, and J. Sancho,
Reconstruction of 3-D Ozone Fields Using POAM
III during SOLVE
Accepted
Cora.Randall@lasp.Colorado.edu
Markus RexSalawitch, R. J., Harris, N. R. P., von der Gathen, P., Braathen,
G. O.,Schulz, A., Deckelman, H., Chipperfield, M., Sinnhuber, B. M., Reimer,
E., Alfier, R., Bevilacqua, R., Hoppel, K., Fromm, M., Lumpe, J., Küllmann,
H., Kleinböhl, A., Bremer, H., von König, M., Künzi, K.,
Toohey, D., Vömel, H., Richard, E., Aikin, K., Jost, H., Greenblatt,
J. B., Loewenstein, M., Podolske, J. R., Webster, C. R., Flesch, G. J.,
Scott, D. C., Herman, R. L., Elkins, J. W., Ray, E. A., Moore, F. L., Hurst,
D. F., Romashkin, P., Toon, G. C., Sen, B., Margitan, J. J., Wennberg,
P., Neuber, R., Allart, M., Bojkov, R. B., Claude, H., Davies, J., Davies,
W., De Backer, H., Dier, H., Dorokhov, V., Fast, H., Kondo, Y., Kyrö,
E., Litynska, Z., Mikkelsen, I. S., Molyneux, M. J., Moran, E., Nagai,
T., Nakane, H., Parrondo, C., Ravegnani, F., Skrivankova, P., Viatte, P.,
Yushkov, V.
Chemical
Depletion of Arctic Ozone in Winter 1999/2000
Accepted
mrex@awi-potsdam.de
Ross J. SalawitchChemical Loss of Ozone during the Arctic Winter of
1999-2000: An Analysis Based on Balloon-Borne Observations
Submitted
Ross.J.Salawitch@jpl.nasa.gov
Cornelius SchillerR. Bauer, F. Cairo, T. Deshler, A. Dörnbrack,
J. Elkins, A. Engel, H. Flentje, N. Larsen, I. Levin, M. Müller, S.
Oltmans, H. Ovarlez, J. Ovarlez, J. Schreiner, F. Stroh, C. Voigt, H. VÖmel,
Dehydration in the Arctic Stratosphere during THESEO 2000/SOLVE Campaigns
Accepted
c.schiller@fz-juelich.de
M. R. SchoeberlP. A. Newman, L. R. Lait, T. J. McGee, J. F. Burris,
E. V. Browell, W. B.Grant E. C. Richard, P. von der Gathen, R. Bevilacqua,
Ib S.Mikkelsen, M. J. Molyneux,
A
Multi-Instrument Assessment of the Ozone Loss during the 1999-2000 SOLVE
Campaign
Accepted
schom@code916.gsfc.nasa.gov
A. W. StrawaK. Drdla, M. Fromm, R.F. Pueschel, K.W. Hoppel, E.V. Browell,
P. Hamill, and D.P. Dempsey.
Discriminating Type Ia and Ib Polar Stratospheric
Clouds in POAM Satellite Data
Accepted
astrawa@mail.arc.nasa.gov
Thomas WagnerF. Wittrock, A. Richter, M. Wenig, J.P. Burrows, and U.
Platt
Continuous Monitoring of the High and Persistent Chlorine Activation
during the Arctic Winter 1999/2000 by the GOME Instrument on ERS-2
Accepted
thomas.wagner@iup.uni-heidelberg.de
John BurrisLidar Temperature Measurements During the SOLVE Campaign
and the Absence of PSCs from Regions of Very Cold Air
Submitted
burris@code916.gsfc.nasa.gov
John BurrisValidation of Temperature Measurements from the Airborne
Raman Ozone Temperature and Aerosol Lidar During SOLVE
Submitted
burris@code916.gsfc.nasa.gov
Sandro BussArctic stratospheric temperature in the winters 1999/2000
and 2000/2001: a quantitative assessment and microphysical implications
Submitted
sandro@atmos.umnw.ethz.ch
Michael CoffeyObservations of chlorine activation and de-nitrification
of the 1999/2000 winter arctic stratosphere during SOLVE
Submitted
coffey@ncar.ucar.edu
Michael Y. DanilinComparison of ER-2 Aircraft and POAM-III, MLS, and
SAGE-II Satellite Measurements during SOLVE Using Traditional Correlative
Analysis and Traejctory Hunting Technique
Submitted
danilin@aer.com
Katja DrdlaEvidence
for the widespread presence of liquid-phase particles during the 1999-2000
Arctic winter
Submitted
katja@katja.arc.nasa.gov
Katja DrdlaMicrophysical
modelling of the 1999-2000 Arctic winter: 2. Chlorine activation and ozone
depletion
Submitted
katja@katja.arc.nasa.gov
Steve EckermannMesoscale
Forecasting of the Stratosphere During SOLVE-THESEO 2000
Submitted
eckerman@uap2.nrl.navy.mil
Kai-Uwe EichmannOzone Depletion in the Northern Hemisphere Winter/Spring
Period 2000 as Measured by GOME
Submitted
eichmann@iup.physik.uni-bremen.de
Harald FlentjeDenitrification inside the Stratospheric Vortex in the
Winter 1999/2000 by Sedimentation of Large NAT Particles
Submitted
harald.flentje@dlr.de
David L. GlandorfIdentification of Nitric Acid Trihydrate (NAT) in the
Arctic Stratosphere Using Infrared Extinction Measurements
Submitted
glandorf@colorado.edu
William B. GrantUse of Ozone Distributions, Potential Vorticity, and
Cooling Rates to Estimate Arctic Polar Vortex Ozone Loss during the Winter
of 1999/2000
Submitted
w.b.grant@larc.nasa.gov
Jeffery B. GreenblattTracer-based determination of vortex descent in
the 1999-2000 Arctic winter
Submitted
buygreen@splash.Princeton.EDU
Tom F. HaniscoIn situ observations of HO2 and OH obtained on the NASA
ER-2 in the high ClO conditions of the 1999-2000 Arctic polar vortex
Submitted
tfh@huarp.harvard.edu
R. L. Herman,Hydration, dehydration, and the total hydrogen budget of
the 1999-2000 winter Arctic stratosphere
Submitted
Robert.L.Herman@jpl.nasa.gov
Albert HertzogIn Situ Observations of Gravity Waves and Comparisons
with Numerical Simulations during the SOLVE/THESEO 2000 campaign
Submitted
hertzog@lmd.polytechnique.fr
Hartwig HetzheimBrO Profile Retrieval by a Novel Method Using ASUR Measurements
during SOLVE / THESEO 2000
Submitted
hartwig.hetzheim@dlr.de
Mathew HitchmanNon-orographic generation of Arctic PSCs during December
1999
Submitted
matt@aos.wisc.edu
Rong-Ming HuThe microphysical properties of wave PSCs retrieved from
lidar measurements during SOLVE-THESEO 2000
Submitted
hu@env.leeds.ac.uk
Armin KleinbÖhlVortexwide Denitrification of the Arctic Polar Stratosphere
in Winter 1999/2000 Determined by Remote Observations
Submitted
kleinb@iup.physik.uni-bremen.de
Makoto KoikeRedistribution of Reactive Nitrogen in the Arctic Lower
Stratosphere in the 1999-2000 Winter
Submitted
koike@stelab.nagoya-u.ac.jp
Bogdan KoisOzone Deficiencies in the Stratosphere over Poland during
Winter/Spring Seasons 1994/1995 - 1999/2000
Submitted
kois@pol.pl
Paul KonopkaWeak Influence of Mixing on the Chlorine Deactivation during
SOLVE: Lagrangian Modeling (CLaMS) versus ER-2 In Situ Observations
Submitted
ep.konopka@fz-juelich.de
Gerhard KoppEvolution of ozone and ozone related species over Kiruna
during the THESEO\,2000-SOLVE campaign retrieved from ground-based millimeter
wave and infrared observations and modeled with KASIMA
Submitted
gerhard.kopp@imk.fzk.de
Ivan KostadinovAircraft UV/Vis Irradiation Measurements during the APE-GAIA
Campaign in Antarctica
Submitted
i.kostadinov@isao.bo.cnr.it
Leslie LaitOzone
Loss from Quasi-Conservative Coordinate Mapping during the 1999-2000 SOLVE/THESEO
2000 Campaigns
Submitted
lrlait@code916.gsfc.nasa.gov
Niels LarsenMicrophysical Mesoscale Simulations of Polar Stratospheric
Cloud Formation over Northern Scandinavia on 25 January 2000 Constrained
by In Situ Measurements of Chemical and Optical Cloud Properties
Submitted
nl@dmi.dknl@dmi.dk
Max LoewensteinAn NOy* algorithm for arctic winter 2000
Submitted
mloewenstein@mail.arc.nasa.gov
Gloria L. ManneyLower stratospheric temperature differences between
meteorological analyses in two cold Arctic winters and their impact on
polar peocessing studies
Submitted
manney@jpl.nasa.gov
Marion MarchandEvaluation of the Influence of the Arctic Ozone Depletion
on Mid-Latitudes by a High- Resolution Chemical Transport Model in the
Lower Stratosphere in the Winter of 1999-2000
Submitted
marchand@aero.jussieu.fr
Johan MellqvistGround-based FTIR observations of chlorine activation
and ozone depletion inside the Arctic vortex during the winter of 1999/2000
Submitted
johan.mellqvist@ivl.se
Olaf MorgensternOn the Diagnosis of Mixing from Tracer-Tracer Correlations,
parts 1 and 2
Submitted
olaf.morgenstern@atm.ch.cam.ac.uk
Rolf MÜllerChemical ozone loss and chlorine activation deduced
from HALOE and OMS measurements in the Arctic Winter 1999-2000
Submitted
ro.mueller@fz-juelich.de
Paul A. NewmanAn
Overview of the SOLVE-THESEO 2000 Campaign
Submitted
newman@code916.gsfc.nasa.gov
Megan J. NorthwayAn analysis of large HNO3-containing particles sampled
in the Arctic stratosphere during the winter of 1999-2000
Submitted
northway@al.noaa.gov
R. Bradley PierceLarge-scale chemical evolution of the arctic vortex
during the 1999-2000 winter: HALOE/POAM3 Lagrangian photochemical modelling
for the SAGE III ozone loss and validation experiment (SOLVE) campaign
Submitted
r.b.pierce@larc.nasa.gov
Eric RayDescent and mixing in the 1999-2000 polar vortex inferred from
in situ measurements
Submitted
ericandrewray@hotmail.com
Jens ReichardtRetrieval of Polar Stratospheric Cloud Microphysical Properties
from Lidar Measurements: Dependence on Particle Shape Assumptions
Submitted
reichardt@code916.gsfc.nasa.gov
Emmanuel RiviereOn the Interaction between Nitrogen and Halogen Species
in the Arctic Polar Vortex during THESEO and THESEO 2000
Submitted
riviere@cnrs-orleans.fr
Andrew RobinsonOzone Loss Derived from Balloon-Borne Tracer Measurements
and the SLIMCAT CTM
Submitted
adr22@hermes.cam.ac.uk
Jochen SchreinerChemical, Physical, and Optical Properties of Polar
Stratospheric Clouds
Submitted
jochen.schreiner@mpi-hd.mpg.de
Rick M. StimpfleFirst measurements of ClOOCl in the stratosphere: The
coupling of ClOOCl and ClO in the Arctic polar vortex
Submitted
rick@huarp.harvard.edu
William H. SwartzPhotochemical Ozone Loss in the Arctic as Determined
by MSX/UVISI Stellar Occultation Observations during the 1999-2000 Winter
Submitted
william.swartz@jhuapl.edu
Adrian F. TuckA scaling analysis of ER-2 data in the inner vortex during
January-March 2000
Submitted
tuck@al.noaa.gov
Albert A. ViggianoIn-Situ Measurements of HCN in the Upper Troposphere/Lower
Stratosphere in the Arctic
Submitted
Albert.Viggiano@hanscom.af.mil
Baerbel VogelPhoto-chemistry of ClO in the Arctic vortex in January
and March 2000: In-situ observations and model simulations
Submitted
b.vogel@fz-juelich.de
Christiane VoigtImpact of Large-Scale Low Temperatures on Mountain Wave
Polar Stratospheric Clouds
Submitted
Christiane.Voigt@mpi-hd.mpg.de
Miriam von KoenigUsing gas-phase nitric acid as an indicator of PSC
composition
Submitted
miriam@env.leeds.ac.uk
Dr.
Paul A. Newman
Code 916
Atmospheric Chemistry and Dynamics Branch
Laboratory
for Atmospheres
NASA's Goddard Space Flight Center
Greenbelt, MD 20771
Building 33, Room E320
(301) 614-5985 fax: x-5903
Created: 2001-08-17 Last Updated: 2001-09-10
Author: Dr. Paul A. Newman
(NASA/GSFC,
Code 916) (newman@notus.gsfc.nasa.gov)