MIST

Magnetosphere, Ionosphere and Solar-Terrestrial

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Call for applications for STFC Public Engagement Early-Career Researcher Forum

 

The STFC Public Engagement Early-Career Researcher Forum (the ‘PEER Forum’) will support talented scientists and engineers in the early stages of their career to develop their public engagement and outreach goals, to ensure the next generation of STFC scientists and engineers continue to deliver the highest quality of purposeful, audience-driven public engagement.

Applications are being taken until 4pm on 3 June 2021. If you would like to apply, visit the PEER Forum website, and if you have queries This email address is being protected from spambots. You need JavaScript enabled to view it..

The PEER Forum aims:

  • To foster peer learning and support between early career scientists and engineers with similar passion for public engagement and outreach, thus developing a peer support network that goes beyond an individual’s term in the forum 
  • To foster a better knowledge and understanding of the support mechanisms available from STFC and other organisations, including funding mechanisms, evaluation, and reporting. As well as how to successfully access and utilise this support 
  • To explore the realities of delivering and leading public engagement as an early career professional and build an evidence base to inform and influence STFC and by extension UKRI’s approaches to public engagement, giving an effective voice to early career researchers

What will participation in the Forum involve?

Participants in the PEER Forum will meet face-to-face at least twice per year to share learning and to participate in session that will strengthen the depth and breadth of their understanding of public engagement and outreach.

Who can apply to join the Forum?

The PEER Forum is for practising early-career scientists and engineers who have passion and ambition for carrying out excellent public engagement alongside, and complementary to, their career in science or engineering. We are seeking Forum members from across the breadth of STFC’s pure and applied science and technology remit.

The specific personal requirements of PEER Forum membership are that members:

  • Have completed (or currently studying for – including apprentices and PhD students) their highest level of academic qualification within the last ten years (not including any career breaks)
  • Are employed at a Higher Education Institute, or a research-intensive Public Sector Research Organisation or Research Laboratory (including STFC’s own national laboratories)
  • Work within a science and technology field in STFC’s remit, or with a strong inter-disciplinary connection to STFC’s remit, or use an STFC facility to enable their own research
  • Clearly describe their track record of experience in their field, corresponding to the length of their career to date
  • Clearly describe their track record of delivering and leading, or seeking the opportunity to lead, public engagement and/or outreach
  • Can provide insight into their experiences in public engagement and/or outreach and also evidence one or more of
  • Inspiring others
  • Delivering impact
  • Demonstrating creativity
  • Introducing transformative ideas and/or inventions
  • Building and sustaining collaborations/networks
  • Are keen communicators with a willingness to contribute to the success of a UK-wide network

    • https://stfc.ukri.org/public-engagement/training-and-support/peer-forum/  

    Astronet Science Vision & Infrastructure Roadmap

     

    Astronet is a consortium of European funding agencies, established for the purpose of providing advice on long-term planning and development of European Astronomy. Setup in 2005, its members include most of the major European astronomy nations, with associated links to the European Space Agency, the European Southern Observatory, SKA, and the European Astronomical Society, among others. The purpose of the Science Vision and Infrastructure Roadmap is to deliver a coordinated vision covering the entire breadth of astronomical research, from the origin and early development of the Universe to our own solar system.

    The first European Science Vision and Infrastructure Roadmap for Astronomy was created by Astronet, using EU funds, in 2008/09, and updated in 2014/15. Astronet is now developing a new Science Vision & Infrastructure Roadmap, in a single document with an outlook for the next 20 years. A delivery date to European funding agencies of mid-2021 is anticipated. 

    The Science Vision and Infrastructure Roadmap revolves around the research themes listed below:

    • Origin and evolution of the Universe
    • Formation and evolution of galaxies
    • Formation & evolution of stars
    • Formation & evolution of planetary systems
    • Understanding the solar system and conditions for life

    but will include cross-cutting aspects such as computing and training and sustainability.

     

    After some delays due to the global pandemic, the first drafts of the chapters for the document are now available from the Panels asked to draft them, for you to view and comment on. For the Science Vision & Roadmap to be truly representative it is essential we take account of the views of as much of the European astronomy and space science community as possible – so your input is really valued by the Panels and Astronet. Please leave any comments, feedback or questions on the site by 1 May 2021.

    It is intended that a virtual “town hall” style event will be held in late Spring 2021, where an update on the project and responses to the feedback will be provided.

    Equitable Letters in Space Physics (ELSP)

    Equitable Letters for Space Physics (ELSP) is a project to encourage merit-based recommendations and nominations in the space physics community by providing resources for letter writing and reviews of recommendation and nomination letters. You can learn more about ELSP's mission and find both letter writing and implicit bias resources at the ELSP website.

    ELSP seeks to achieve this goal by:

    1. Providing resources for people writing letters of recommendation and award nomination at the undergraduate level and above.
    2. Providing resources for people wishing to learn about different implicit biases and lessen their manifestation.
    3. Providing reviews of recommendation and nomination letters, with the goal of lessening implicit bias in these letters.

    At the moment, ELSP is seeking volunteers to participate as reviewers in the letter submission system. This system will function similarly to double-blind journal article reviews, with the ELSP executive director acting as editor.The ELSP board of directors is Angeline G. Burrell; John Coxon; Alexa Halford; McArthur Jones Jr.; and Kate Zawdie. If you have more questions or would like to participate, This email address is being protected from spambots. You need JavaScript enabled to view it..

    Call for proposals for ESA's Living Planet Fellowship

    ESA is currently inviting proposals for their Living Planet Fellowship with a deadline of 15 March 2021. These fellowships, worth a maximum of €110k, are intended:

    To support young scientists, at post-doctoral level, to undertake cutting-edge research in Earth Observation, Earth System Science or Climate Research, maximising the scientific return of ESA and European EO missions and datasets through the development of novel EO methods, techniques and products, and by delivering excellent scientific results addressing the grand Earth Science challenges of the next decade, enabling improved predictions of the physical interaction of society with the Earth system.

    Interested candidates need to propose a two-year-long research plan which contributes to either of the two themes of the fellowship: "Advancing novel methods and techniques" or "Advancing Earth system science". The call also includes opportunities in the use of cloud computing capabilities; to support small ground-based experiments and in situ data collection; and a visiting scientist scheme to join the new ESA Earth System Science Hub.

    Questions related to the call can be submitted via email, and must be "not later than two weeks before the Closing Date" (i.e. by the end of February 2021). The timeline for the fellowships is as follows:

    Milestone Date
    Submission of proposals 15 March 2021 
    Communication of results* Q2 2021
    Beginning of activities* Q3 2021

    *tentative

    "Mental Health and Wellbeing in the MIST Community": A series of panel discussions

    We are hosting a series of pre-recorded panel discussions on the topic of "Mental Health and Wellbeing in the MIST Community", exploring the sources and impacts within our community as well as discussing ways to move forwards. The discussions will focus on both individual and community-wide perspectives, and will consider perspectives from a range of career stages. The panel discussions will separately focus on views from a) PhD students, b) PDRAs, and c) Tenure positions. 
     
    To ensure that the discussion focuses on the needs and issues most important to the MIST Community, we request your input on questions that you would like to pose to the panel, as well as specific topics that you would like to see covered. To suggest questions & topics, please use the following form: https://forms.gle/J4QS5JdaVCo1hF6z7 and submit your suggestions by Friday 26 February. Please note that any responses on the form are completely anonymous.
     
    For support with mental health and wellbeing concerns, we recommend the following resources: https://ras.ac.uk/education-and-careers/places-you-can-find-support.
     
    If you have any other questions, concerns, or would like to discuss anything in further detail, please get in touch at This email address is being protected from spambots. You need JavaScript enabled to view it..

    Local Time Asymmetries in Jupiter's Magnetodisc Currents

    By Chris Lorch (Lancaster University)

    Jupiter’s large, rapidly rotating magnetosphere is highly influenced by the presence of a global, centrifugally confined current disk comprised of co-rotating plasma from the volcanic moon Io. Azimuthal and radial currents flow through this current disk closing via magnetic field aligned currents (FACs), which are associated with Jupiter’s main auroral emission. These currents arise from dynamical processes within the magnetosphere, driven by the transport and circulation of Iogenic plasma. Characterising the structure and asymmetries in this current system is key to deciphering the dominant drivers of Jupiter’s magnetosphere-ionosphere (MI) coupled system and the behaviour of its plasma disk. 

    Previous work by Khurana [2001] examined the solar wind influence on Jupiter’s magnetosphere using equatorial maps of Jupiter’s current disk and the results demonstrated clear azimuthal asymmetries fixed with local time (LT). However, the analysis was limited the lack of spacecraft coverage in the dusk – dayside magnetosphere provided by the Galileo spacecraft.  

    Maps of current density mapped to Jupiter's equatorial plane, illustrating the azimuthal asymmetries.

    Figure 1: Equatorial maps detailing the structure of Jupiter’s current disk with Jupiter located at (0,0). Dashed circles and radial lines represent 20RJ and 1 hr local time boundaries respectively. A compressed bow shock and magnetopause (Joy et al [2002]) are shown as black solid lines. a) The radial height-integrated current density, warmer (cooler) colours are indicative of current flowing radially outwards (inwards). b) The azimuthal height integrated colour density, flowing in the direction of corotation. c) The divergence of the perpendicular height-integrated current density, indicating the location of upward and downward FACs. Warmer (cooler) colours indicate the presence of upward (downward) FACs.

    Lorch et al. [2020] determines the structure of the current disk at all LTs by considering magnetometer data at Jupiter from every available spacecraft, including Juno, up to 28 July 2018.  We apply an automated identification tool to magnetometer data from Jupiter’s current disk in conjunction with updated models of Jupiter’s intrinsic magnetic field and current disk geometry. In total, we identify 7382 lobe traversals, calculating the associated height-integrated current density for each crossing.  Additional coverage provided by the later half of the Galileo mission and the recent Juno mission allowed us to map all LTs. Asymmetries exist in both the radial (Figure 1a) and azimuthal (Figure 1b) currents into 20 RJ. Furthermore, we quantify the structure of upward and downward FACs in previously unmapped regions of Jupiter’s magnetosphere (Figure 1c). We find a positive net current density of 1.87 MA / RJ2, suggesting unmapped currents must close either down-tail or along the magnetopause. Our results demonstrate important asymmetries in Jupiter’s current systems that play a crucial role in the MI coupled system. Amalgamating these results into future MI coupling models has the potential to remove discrepancies between model predictions and observations.

    For more information, please see the paper:

    Lorch, C. T. S., Ray, L. C., Arridge, C. S., Khurana, K. K., Martin, C. J., & Bader, A. (2020). Local time asymmetries in Jupiter's magnetodisc currents. Journal of Geophysical Research: Space Physics, 125, e2019JA027455. https://doi.org/10.1029/2019JA027455