<div dir="ltr"><pre>Dear Space Physics community
The Space Physics Environment Data Analysis Software (SPEDAS)
development team would like to invite you to participate in a Webex
presentation we'll be holding on <span class="gmail-aBn" tabindex="0"><span class="gmail-aQJ">February 14, 2018</span></span>.
On <span class="gmail-aBn" tabindex="0"><span class="gmail-aQJ">Wednesday, February 14, 2018 at 10:00am</span></span> Pacific, we'll be hosting a
session focusing on using SPEDAS to analyze MMS FIELDS data. For more
information on the MMS plug-in in SPEDAS, please see:
<a target="_blank" href="http://spedas.org/wiki/index.php?title=MMS" class="gmail-m_8598014554116405949moz-txt-link-freetext">http://spedas.org/wiki/index.<wbr>php?title=MMS</a>
If there are any particular questions or topics of general interest that
you'd like to see covered, please send your suggestions to Eric Grimes,
<a target="_blank" href="mailto:egrimes@igpp.ucla.edu" class="gmail-m_8598014554116405949moz-txt-link-abbreviated">egrimes@igpp.ucla.edu</a>, and we'll try to work them in.
See below for the agenda and Webex connection info.
Eric Grimes, Jim Lewis, Vassilis Angelopoulos and the SPEDAS team
==============================<wbr>=====================
Special Webinar on FIELDS Analysis with SPEDAS
Time: <span class="gmail-aBn" tabindex="0"><span class="gmail-aQJ">February 14, 10:00am-12:00pm</span></span> Pacific
URL: <a target="_blank" href="https://uclaigpp.webex.com/uclaigpp" class="gmail-m_8598014554116405949moz-txt-link-freetext">https://uclaigpp.webex.com/<wbr>uclaigpp</a>
Meeting name = Special Webinar on FIELDS Analysis with SPEDAS
Password = mms-FIELDS-data5
Phone to use: <a target="_blank" value="+15106433817" href="tel:%28510%29%20643-3817">510-643-3817</a>
Conference ID/pass = none; first person hears the ring, second starts
the telecon
Tentative agenda:
- Introduction to load routines, keywords (FGM, SCM, EDP, EDI)
- Coordinate transformations (cotrans / qcotrans)
- Minimum variance analysis
- Curlometer calculations
- Wave polarization calculations
- Dynamic power spectra
- Poynting flux
- GUI examples (if time permits)</pre></div>