AGU Electronics Editions Package, AGU

Total Page：16

File Type：pdf, Size：1020Kb

SCHEDULE 3 Addition(s), Deletion(s) to Agreement, Licensed Materials, Subscription Period and Access Method A schedule dated 11'/11./UlfJ to the License dated 1/;-t./u;ot{ between American Geophysical Union and The California Digital Library. ADDITION(s) DELETION(s) TO THE LICENSED MATERIALS AND SUBSCRIPTION PERIOD AND ACCESS METHOD: Addition(s), Deletion(s) made by the Licensee must be approved by Publisher, agreed to, and signed by both parties. Titles(s) Period • • •• Fee AGU Electronics Editions Package* Jan 1 - Dec 31, 2011 AGU Digital Library Jan 1 - Dec 31, 2011 Purchase starting Jan 1, 2011 *Includes the journals titled: Journal of Geophysical Research - All sections Journal of Geophysical Research - Space Physics Section Journal of Geophysical Research - Solid Earth Section Journal of Geophysical Research - Oceans Section Journal of Geophysical Research - Atmospheres Section Journal of Geophysical Research - Planets Section Journal of Geophysical Research - Earth Surface Section Journal of Geophysical Research - Biogeosciences Section Water Resources Research Reviews of Geophysics Geophysical Research Letters Radio Science Tectonics Paleoceanography Global Biogeochemical Cycles Geochemistry Geophysics Geosystems Space Weather Earth Interactions (copublished with AMS and AAG) Chinese Journal of Geophysics (distributed by AGU) Nonlinear Processes in Geophysics (copublished with EGU) **Each year thereafter, a ccess fee would be charged to the Licensee. SUBSCRIBING LOCATION IP ADDRESSES UC Berkeley [Including Lawrence Berkeley Lab] UC Davis UC Irvine UC Merced UC Los Angeles UC Riverside UC San Diego UC San Francisco UC Santa Barbara UC Santa Cruz Lawrence Livermore National Lab ACCESS METHOD: Authentication via IP address AS WITNESS the hands of the parties the day and year below written FOR THE PUBLISHER: AMERICAN GEOPHYSICAL UNION FOR THE LICENSEE: [FULL NAME] Signature: Name (in block capitals): Date: Position I Title: f>C6Gct11 "E' J>1REC 1b e AGU License - Academic single institution (exclusive of 2-year colleges) 23 July 2003 University of California IP Addresses by Campus ( 8/5/10 ) UC Davis .

Copy Link

Recommended publications

Geochemistry, Geophysics, Geosystems Becoming an Open Access Journal: FAQ
Geochemistry, Geophysics, Geosystems becoming an open access journal: FAQ Why is Geochemistry, Geophysics, Geosystems becoming an open access journal? AGU remains committed to open science and open data. As a part of our mission, we are focused on making science available to the widest possible audience. Since many researchers around the world have open access requirements by funders, this move to an open access model will make compliance easier. Authors will pay an open access article processing charge (APC) and retain copyright of their article which they can publish under a Creative Commons license (choose from CC-BY or CC-BY-NC-ND). There will be no excess page fees or any other additional fees for publication. In addition, there will be no subscription paywall, which means that more people will have access to your research so they can actively cite, read and share data for free. When will Geochemistry, Geophysics, Geosystems become open access? All articles in the journal will be open access as of 1 January 2022. After 8 September 2021, submissions received/accepted must agree to pay the open access article processing charge (APC), but there will be no excess page fees or any other additional fees for publication. What if I already have a paper under consideration to Geochemistry, Geophysics, Geosystems? If your paper: • is under consideration before 8 September 2021 and • publishes after 1 January 2021, then your paper will publish with copyright to the authors under a Creative Commons license for free (the fee will be waived). If your paper publishes in 2021, then the paper will publish as a subscription article (copyright AGU).
[Show full text]
SCIENCE CITATION INDEX EXPANDED - JOURNAL LIST Total Journals: 8631
SCIENCE CITATION INDEX EXPANDED - JOURNAL LIST Total journals: 8631 1. 4OR-A QUARTERLY JOURNAL OF OPERATIONS RESEARCH 2. AAPG BULLETIN 3. AAPS JOURNAL 4. AAPS PHARMSCITECH 5. AATCC REVIEW 6. ABDOMINAL IMAGING 7. ABHANDLUNGEN AUS DEM MATHEMATISCHEN SEMINAR DER UNIVERSITAT HAMBURG 8. ABSTRACT AND APPLIED ANALYSIS 9. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 10. ACADEMIC EMERGENCY MEDICINE 11. ACADEMIC MEDICINE 12. ACADEMIC PEDIATRICS 13. ACADEMIC RADIOLOGY 14. ACCOUNTABILITY IN RESEARCH-POLICIES AND QUALITY ASSURANCE 15. ACCOUNTS OF CHEMICAL RESEARCH 16. ACCREDITATION AND QUALITY ASSURANCE 17. ACI MATERIALS JOURNAL 18. ACI STRUCTURAL JOURNAL 19. ACM COMPUTING SURVEYS 20. ACM JOURNAL ON EMERGING TECHNOLOGIES IN COMPUTING SYSTEMS 21. ACM SIGCOMM COMPUTER COMMUNICATION REVIEW 22. ACM SIGPLAN NOTICES 23. ACM TRANSACTIONS ON ALGORITHMS 24. ACM TRANSACTIONS ON APPLIED PERCEPTION 25. ACM TRANSACTIONS ON ARCHITECTURE AND CODE OPTIMIZATION 26. ACM TRANSACTIONS ON AUTONOMOUS AND ADAPTIVE SYSTEMS 27. ACM TRANSACTIONS ON COMPUTATIONAL LOGIC 28. ACM TRANSACTIONS ON COMPUTER SYSTEMS 29. ACM TRANSACTIONS ON COMPUTER-HUMAN INTERACTION 30. ACM TRANSACTIONS ON DATABASE SYSTEMS 31. ACM TRANSACTIONS ON DESIGN AUTOMATION OF ELECTRONIC SYSTEMS 32. ACM TRANSACTIONS ON EMBEDDED COMPUTING SYSTEMS 33. ACM TRANSACTIONS ON GRAPHICS 34. ACM TRANSACTIONS ON INFORMATION AND SYSTEM SECURITY 35. ACM TRANSACTIONS ON INFORMATION SYSTEMS 36. ACM TRANSACTIONS ON INTELLIGENT SYSTEMS AND TECHNOLOGY 37. ACM TRANSACTIONS ON INTERNET TECHNOLOGY 38. ACM TRANSACTIONS ON KNOWLEDGE DISCOVERY FROM DATA 39. ACM TRANSACTIONS ON MATHEMATICAL SOFTWARE 40. ACM TRANSACTIONS ON MODELING AND COMPUTER SIMULATION 41. ACM TRANSACTIONS ON MULTIMEDIA COMPUTING COMMUNICATIONS AND APPLICATIONS 42. ACM TRANSACTIONS ON PROGRAMMING LANGUAGES AND SYSTEMS 43. ACM TRANSACTIONS ON RECONFIGURABLE TECHNOLOGY AND SYSTEMS 44.
[Show full text]
Latex Submission Guidelines
Latex submission guidelines The current version of the zip archive containing all components is marked April 30, 2019 The current version of the main CLS file is April 16, 2019 You are not required to use the newest template, but it is strongly recommended. Zip Contents: April‐30‐2019‐latex‐templates.zip contains these files: agujournaltemplate.tex o This is a “sample” manuscript. It contains commented out instructions and pre‐defined sections to add your work. agujournal2019.cls o This is the primary class file. It corresponds to agujournaltemplate.tex si_template_2019.tex o A “sample” supporting information readme. Like agujournaltemplate.tex, it contains a framework to fill with information about your supplemental files. agutexSI2019.cls o The class file for the supporting information readme file, si_template_2019.tex trackchanges.sty o a third‐party package that facilitates manuscript annotation, usually for tracking changes. Set package options to “inline” to show annotations, “finalnew” to compile an unmarked paper. Complete documentation is here. a directory, trackchanges‐0.7.0 o contains python scripts for automated removal of change tracking commands, if needed o also includes documentation and authorship info for the package above 1 Using agujournaltemplate.tex 1. enter the journal’s name in plain text \journalname{here} 2. enter your paper’s title \title{here} 3. List all authors \authors{here} List authors by first name or initial followed by last name and separated by commas. Use \affil{} to number affiliations, and \thanks{} for author notes. Additional author notes should be indicated with \thanks{} (current addresses, for example). Example: \authors{A. B.
[Show full text]
1999 EOS Reference Handbook
1999 EOS Reference Handbook A Guide to NASA’s Earth Science Enterprise and the Earth Observing System http://eos.nasa.gov/ 1999 EOS Reference Handbook A Guide to NASA’s Earth Science Enterprise and the Earth Observing System Editors Michael D. King Reynold Greenstone Acknowledgements Special thanks are extended to the EOS Prin- Design and Production cipal Investigators and Team Leaders for providing detailed information about their Sterling Spangler respective instruments, and to the Principal Investigators of the various Interdisciplinary Science Investigations for descriptions of their studies. In addition, members of the EOS Project at the Goddard Space Flight Center are recognized for their assistance in verifying and enhancing the technical con- tent of the document. Finally, appreciation is extended to the international partners for For Additional Copies: providing up-to-date specifications of the instruments and platforms that are key ele- EOS Project Science Office ments of the International Earth Observing Mission. Code 900 NASA/Goddard Space Flight Center Support for production of this document, Greenbelt, MD 20771 provided by Winnie Humberson, William Bandeen, Carl Gray, Hannelore Parrish and Phone: (301) 441-4259 Charlotte Griner, is gratefully acknowl- Internet: [email protected] edged. Table of Contents Preface 5 Earth Science Enterprise 7 The Earth Observing System 15 EOS Data and Information System (EOSDIS) 27 Data and Information Policy 37 Pathfinder Data Sets 45 Earth Science Information Partners and the Working Prototype-Federation 47 EOS Data Quality: Calibration and Validation 51 Education Programs 53 International Cooperation 57 Interagency Coordination 65 Mission Elements 71 EOS Instruments 89 EOS Interdisciplinary Science Investigations 157 Points-of-Contact 340 Acronyms and Abbreviations 354 Appendix 361 List of Figures 1.
[Show full text]
Jean-Philippe Avouac
JEAN-PHILIPPE AVOUAC Academic Preparation 1987 Ingénieur Ecole Polytechnique, France 1991 PhD, (advisor: Paul Tapponnier) Institut de Physique du Globe de Paris, France 1992 Habilitation à diriger des recherches Institut de Physique du Globe de Paris, France Professional Appointments 2018-present: Director of the NSF/IUCRC center for Geomechanics and the Mitigation of Geohazards. 2015- present: Earle C. Anthony Professor of Geology, Professor of Mechanical and Civil Engineering California Institute of Technology 2014-2015: BP-McKenzie Professor of Earth Sciences, University of Cambridge 2012-2014: Earle C. Anthony Professor of Geology, GPS Division, California Institute of Technology 2004-2014: Director of the Caltech Tectonics Observatory 2003-2012: Professor of Geology, GPS Division, California Institute of Technology 1996-2002: Chef du Laboratoire de Télédétection et Risque Sismique, DASE, CEA, France 1991-1996 Ingénieur, Laboratoire de Géophysique, CEA, France Honors and Awards: Editors’ Citation for Excellence in Refereeing for Geophysical Research Letters (2015), Wolfson Merit Award of the Royal Society, UK (2014), Fellow of the American Geophysical Union (2014); Earth and Planetary Science Letters Editorial Excellence Recognition Award (2013); Alexander von Humboldt Foundation Senior Scientist Award (2010); Editors’ Citation for Excellence in Refereeing for Journal of Geophysical Research-Solid Earth (2008); Birch Lecture, American Geophysical Union (2007); Editors’ Citation for Excellence in Refereeing for Journal of Geophysical
[Show full text]
Radio Science Bulletin Staff
INTERNATIONAL UNION UNION OF RADIO-SCIENTIFIQUE RADIO SCIENCE INTERNATIONALE ISSN 1024-4530 Bulletin Vol. 2020, No. 372 March 2020 Radio Science URSI, c/o Ghent University (INTEC) Technologiepark - Zwijnaarde 126, B-9052 Gent (Belgium) Contents Radio Science Bulletin Staff ....................................................................................... 3 URSI Offi cers and Secretariat.................................................................................... 6 Editor’s Comments ..................................................................................................... 8 Introduction to the URSI-JRSM 2019 SPC Special Issue ..................................... 10 ASIC Waveform Receiver with Improved Environmental Tolerance for Probing Space Plasma Waves in Environments with High Radiation and Wide Temperature Variation ............................................................................... 12 Performance Improvement of Resonator-Coupled Wireless Power Transfer System Using Dual-Spiral Resonator with Angular Misalignments ................ 22 ULF Modulation of Energetic Electron Precipitation Observed by VLF/LF Radio Propagation ................................................................................................ 29 Et Cetera .................................................................................................................... 41 Book Review .............................................................................................................. 42 Solution Box ..............................................................................................................
[Show full text]
The Lunar Moho and the Internal Structure of the Moon: a Geophysical Perspective
Tectonophysics 609 (2013) 331–352 Contents lists available at ScienceDirect Tectonophysics journal homepage: www.elsevier.com/locate/tecto Review Article The lunar moho and the internal structure of the Moon: A geophysical perspective A. Khan a,⁎, A. Pommier b, G.A. Neumann c, K. Mosegaard d a Institute of Geochemistry and Petrology, Swiss Federal Institute of Technology, Zürich, Switzerland b School of Earth and Space Exploration, Arizona State University, Tempe, USA c NASA Goddard Space Flight Center, Greenbelt, MD, USA d Department of Informatics and Mathematical Modelling, Technical University of Denmark, Lyngby, Denmark article info abstract Article history: Extraterrestrial seismology saw its advent with the deployment of seismometers during the Apollo missions Received 2 May 2012 that were undertaken from July 1969 to December 1972. The Apollo lunar seismic data constitute a unique Received in revised form 7 February 2013 resource being the only seismic data set which can be used to infer the interior structure of a planetary Accepted 14 February 2013 body besides the Earth. On-going analysis and interpretation of the seismic data continues to provide con- Available online 24 February 2013 straints that help reﬁne lunar origin and evolution. In addition to this, lateral variations in crustal thickness (~0–80 km) are being mapped out at increasing resolution from gravity and topography data that have Keywords: Lunar seismology and continue to be collected with a series of recent lunar orbiter missions. Many of these also carry onboard Crustal thickness multi-spectral imaging equipment that is able to map out major-element concentration and surface mineral- Lunar structure and composition ogy to high precision.
[Show full text]
Download Preprint
This preprint has been submitted as an invited review for peer review to Advances in Geophysics, as yet this paper has not undergone peer-review. Chapter 1 Machine learning and fault rupture: a review Christopher X. Ren1∗, Claudia Hulbert2∗, Paul A. Johnson3, Bertrand Rouet-Leduc3∗∗ 1Intelligence and Space Research Division, Los Alamos National Laboratory, Los Alamos, NM, USA 2Laboratoire de Géologie, Département de Géosciences, École Normale Supérieure, Paris, France 3Geophysics Group, Los Alamos National Laboratory, Los Alamos, NM, USA ∗ These two authors contributed equally. ∗∗ Corresponding author email: [email protected]. ABSTRACT Geophysics has historically been a data-driven field, however in recent years the ex- ponential increase of available data has led to increased adoption of machine learning techniques and algorithm for analysis, detection and forecasting applications to faulting. This work reviews recent advances in the application of machine learning in the study of fault rupture ranging from the laboratory to Solid Earth. KEYWORDS Machine Learning, Faulting, Earthquakes 1.1 INTRODUCTION The study of material failure and rupture in geophysics is an extremely broad field [1], involving observation and analysis of geophysical data from failure simulations at laboratory and field scale [2, 3, 4, 5, 6, 7, 8, 9], laboratory experiments [10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26? ] and in the solid Earth [1, 27, 28, 29, 30, 31, 32, 33, 34, 35]. Despite the vast apparent scope of this field, one approach to distill its essence is based on the following question: given a seismic signal received by a sensor or a set of sensors, what information can be gleaned concerning the process generating the signal? Often these signals are noisy, numerous, and exist in high-dimensional spaces where it is non-trivial to extract meaningful information from them [36, 37].
[Show full text]
Radio Science Bulletin Staff
INTERNATIONAL UNION UNION OF RADIO-SCIENTIFIQUE RADIO SCIENCE INTERNATIONALE ISSN 1024-4530 Bulletin No 357 June 2016 Radio Science URSI, c/o Ghent University (INTEC) St.-Pietersnieuwstraat 41, B-9000 Gent (Belgium) Contents Radio Science Bulletin Staff ....................................................................................... 3 URSI Offi cers and Secretariat.................................................................................... 6 Editor’s Comments ..................................................................................................... 8 URSI 2017 GASS....................................................................................................... 10 Awards for Young Scientists - Conditions ............................................................... 11 Modifi cation of the Ionosphere by Precursors of Strong Earthquakes ............... 12 50 Years of Arecibo Lunar Radar Mapping ........................................................... 23 Special Section: Joint URSI BeNeLux - IEEE AP-S -NARF Symposium ........... 36 Implementation of Diff erent RF-Chains to Drive Acousto-Optical Tunable Filters in the Framework of an ESA Space Mission .......................................... 37 JS’17 ........................................................................................................................... 44 In Memoriam: Per-Simon Kildal ............................................................................. 45 In Memoriam: Richard Davis .................................................................................
[Show full text]
April Issue Of
VOL. 101 | NO. 4 When PG&E Turns Out APRIL 2020 the Lights on Science A Dream Spacecraft for Neptune Welcome to the Chibanian Age (770,000 Years Ago) FROM Science THE Spill Ten years after the Deepwater Horizon blowout dumped millions of barrels of oil into the Gulf, a massive investment in science has been the silver lining. FROM THE EDITOR Editor in Chief Heather Goss, AGU, Washington, D.C., USA; [email protected] Editorial Manager, News and Features Editor Caryl-Sue Micalizio Deepwater Horizon’s Legacy Science Editor Timothy Oleson Senior News Writer Randy Showstack News Writer and Production Associate Kimberly M. S. Cartier of Science News and Features Writer Jenessa Duncombe n 20 April 2010, a bubble of methane shot up an oil Production & Design and gas well in the Gulf of Mexico and ignited when it Manager, Production and Operations Faith A. Ishii Senior Production Specialist Melissa A. Tribur Oreached the surface, killing 11 crew members and Editorial and Production Coordinator Liz Castenson starting an uncontrollable fire on the Deepwater Horizon Assistant Director, Design & Branding Beth Bagley drilling rig. Given the catastrophic emergency, it wasn’t until Senior Graphic Designer Valerie Friedman Graphic Designer J. Henry Pereira the rig sank 2 days later that anyone realized oil was being released into the Gulf. Not just spilling—gushing out from the Marketing well at the seabed at an enormous rate. Director, Marketing, Branding & Advertising Jessica Latterman That’s when Jerry Miller—Eos’s science adviser representing Assistant Director, Marketing & Advertising Liz Zipse AGU’s Ocean Sciences section—was called to action.
[Show full text]
The Data Problem. We Need an Evolution in Technology to Get Us Out
VOL. 101 | NO. 8 Europe’s Biodiversity Strategy AUGUST 2020 A Virtual Hackathon Fights Locusts MH370’s Search Reveals New Science INNOVATIONS IN TECHNOLOGY GOT US INTO THE DATA PROBLEM. WE NEED AN EVOLUTION IN TECHNOLOGY TO GET US OUT. FROM THE EDITOR Editor in Chief Heather Goss, AGU, Washington, D.C., USA; [email protected] AGU Sta The Rise of Machine Learning Vice President, Communications, Amy Storey Marketing,and Media Relations e cover the data problem here in Eos quite a bit. But Editorial Manager, News and Features Editor Caryl-Sue Micalizio “the data problem” is a misnomer: With so many Science Editor Timothy Oleson ways to collect so much data, the modern era of News and Features Writer Kimberly M. S. Cartier W Jenessa Duncombe science is faced not with one problem, but several. Where we’ll News and Features Writer store all the data is only the first of them. Then, what do we Production & Design do with it all? With more information than an army of humans Manager, Production and Operations Faith A. Ishii could possibly sift through on any single research project, Senior Production Specialist Melissa A. Tribur scientists are turning to machines to do it for them. Production and Analytics Specialist Anaise Aristide “I first encountered neural networks in the 1980s,” said Kirk Assistant Director, Design & Branding Beth Bagley Senior Graphic Designer Valerie Friedman Martinez, Eos science adviser for AGU’s informatics section Graphic Designer J. Henry Pereira and a professor at the University of Southampton, United Marketing King dom, when he suggested the theme for our August issue.
[Show full text]
AGU Journals: the Highest Standards Make Your Research Accessible
AGU Journals: The Highest Standards Make Your Research Accessible As a leading publisher in the scientific community, AGU maintains the highest standards and promotes best practices in scholarly publishing. AGU operates as a not-for-profit publisher with seven open- access journals. We have more than 100,000 articles in our database, with new ones added regularly. The 22 peer-reviewed journals are driven by editors who are recognized experts and leaders in their respective research areas. AGU publications have one of the fastest publication times across all Earth and space science journals, meaning your research can be accessed, read and cited sooner. AGU is a leader and proud supporter of open science, and we seek to make scientific research and its dissemination accessible to all. Some of the actions we’ve taken to ensure that research published in AGU journals reaches the widest possible audience include: • Making all new journals acquired or started • Encouraging the submission of plain-lan- by AGU since 2010 fully open access, which guage summaries to encourage compre- means all articles are freely accessible to hension of scientific results by the widest read, download and share. possible readership. • Offering free access to 96% of the content • Highlighting selected journal articles in Eos published in AGU journals since 1997. magazine, which reaches a print audience of • Including access to the back files of AGU more than 22,000 people around the world. journals (via the Digital Library) as an added • Issuing AGU press releases to highlight benefit for AGU individual members since journal articles that feature groundbreaking January 2020.
[Show full text]