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Sol 229: The Sun Is a Mass of Incandescent Gas

Perseverance's Selfie at "Rochette": "NASA’s Perseverance Mars rover took this selfie over a rock nicknamed "Rochette," on September 10, 2021, the 198th Martian day, or sol of the mission" which is near where Perseverance is hanging out during conjunction. Credits: NASA/JPL-Caltech/MSSS. Download image ›

As the Sun spews hot, energized gas from its outer atmosphere (corona) far across space, and Mars and Earth align on opposite sides, this causes interference with our radio signal communications. This means reliable communication is precluded, and we are in a quiet-period for tactical day-to-day mission operations, called solar conjunction. 

While this is the first solar conjunction for Perseverance since landing on Mars on February 18, 2021, this is the fifth solar conjunction for Curiosity which gives us an opportunity to learn from their plans, experiences, and lessons learned. 

We are currently two-thirds of the way through this solar conjunction, sols 217-235 (Sept. 28 – Oct. 17). While we cannot send new instructions to the rover during this time, Perseverance is not bored. 

To ensure that we can keep the rover healthy and safe, while performing remote science, robust planning for conjunction began months ago. In the sols leading up to conjunction, we verified that the rover was in a safe space by performing all routine engineering and instrument maintenance operations, stowing the robotic arm, and uploading a few weeks’ worth of commands. These plans were carefully constructed to ensure stable positions for thermal, power, physical stability, and data volume for collections during conjunction. 

The commanding plan for the duration is broken into three different 6-sol length master sequence plans which handover to one another. These master sequences determine the rover’s sol-to-sol schedule for when to sleep and perform various science and engineering activities. 

During this period, Perseverance will not be conducting any mobility, robotic arm motion, sample caching system activities, or using any of the instruments on the robotic arm. Meanwhile, Ingenuity is remaining stationary sitting 575 feet (175 meters) away from Perseverance and will send status reports to the rover once per week.

After conjunction, only remote science will be allowed until all critical engineering data has been received and assessed which may take a few days to sort through the massive data downlink. Once nominal rover operations resume, Perseverance will continue to explore its neighborhood in the South Séítah region of Jezero Crater, where it will make its next sample attempt.

As the planets align for solar conjunction and there is a break in tactical operations, our team is working hard on strategic engineering activities for future improvements for the rover mission operations system, analyzing data downlinked previous to conjunction, and taking the opportunity to refresh and enjoy our home planet. 

See you on the other side of the Sun, Perseverance! 



About This Blog

These blog updates are provided by self-selected Mars 2020 mission team members who love to share what Perseverance is doing with the public.

Dates of planned rover activities described in these blogs are subject to change due to a variety of factors related to the Martian environment, communication relays and rover status.

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Contributors+

  • Mariah Baker
    Planetary Scientist, Smithsonian National Air & Space Museum
    Washington, DC
  • Iona Brockie
    Sampling Engineer, NASA/JPL
    Pasadena, CA
  • Sawyer Brooks
    Docking Systems Engineer, NASA/JPL
    Pasadena, CA
  • Denise Buckner
    Student Collaborator, University of Florida
    Gainesville, FL
  • Alyssa Deardorff
    Systems Engineer, NASA/JPL
    Pasadena, CA
  • Kenneth Farley
    Project Scientist, Caltech
    Pasadena, CA
  • Brad Garczynski
    Student Collaborator, Purdue University
    West Lafayette, IN
  • Erin Gibbons
    Student Collaborator, McGill University
    Montreal, Canada
  • Louise Jandura
    Chief Engineer for Sampling & Caching, NASA/JPL
    Pasadena, CA
  • Lydia Kivrak
    Student Collaborator, University of Florida
    Gainesville, FL
  • Rachel Kronyak
    Systems Engineer, NASA/JPL
    Pasadena, CA
  • Matt Muszynski
    Vehicle Systems Engineer, NASA/JPL
    Pasadena, CA
  • Pegah Pashai
    Vehicle Systems Engineer Lead, NASA/JPL
    Pasadena, CA
  • David Pedersen
    Co-Investigator, PIXL Instrument, Technical University of Denmark (DTU)
    Copenhagen, Denmark
  • Jennifer Trosper
    Project Manager, NASA/JPL
    Pasadena, CA
  • Roger Wiens
    Principal Investigator, SuperCam / Co-Investigator, SHERLOC instrument, LANL
    Los Alamos, NM

Tools on the Perseverance Rover+

The Perseverance rover has tools to study the history of its landing site, seek signs of ancient life, collect rock and soil samples, and help prepare for human exploration of Mars. The rover carries:


CAMERAS & SPECTROMETERS
GROUND-PENETRATING RADAR
ENVIRONMENTAL SENSORS
TECHNOLOGY DEMO
SAMPLE COLLECTION

Where is the Rover?

Image of a rover pin-point at Perseverance's location on Mars, Jezero Crater

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