PI ImageSolver script: 108242 stars found
SNR G156.2+5.7 is a large, shell-type supernova remnant (SNR) located in the Milky Way Galaxy. With an apparent diameter of about 3° across the sky, its angular size is notably large. For context, the full Moon appears roughly 0.5° across, making G156.2+5.7 about six times wider in apparent size. This substantial angular extent reflects both its relative proximity and the long period over which the remnant’s shock waves have expanded and diffused into the surrounding interstellar medium (ISM).
Situated approximately 3,000 light-years from Earth in the constellation Perseus, G156.2+5.7 is thought to have originated from the supernova explosion of a massive star tens of thousands of years ago. In the aftermath, the stellar debris has formed a roughly spherical shell that continues to expand and evolve. As the shock wave plows into the ISM, it compresses and heats the interstellar gas and dust, producing emission that is particularly bright at the remnant’s outer edges.
Observations of G156.2+5.7 span multiple wavelengths, but the most comprehensive data have come from radio and X-ray studies. Radio surveys helped to discover its shell-type structure, revealing the distribution of relativistic electrons and magnetic fields. Subsequent X-ray observations using telescopes like ROSAT and XMM-Newton have provided deeper insights into the hot plasma within the remnant, allowing astronomers to map temperature variations, estimate the shock velocities, and probe the chemical abundances of the ejected material. Such analyses help researchers understand the energy released during the supernova event and the mass and nature of the progenitor star.
While G156.2+5.7 may not be as famous as remnants like the Crab Nebula or Cassiopeia A, it nonetheless plays an important role in our broader understanding of stellar and galactic evolution. Supernova remnants act as chemical “factories” and distributors, seeding the galaxy with heavy elements that become the raw materials for new stars, planetary systems, and potentially life. Investigating objects like G156.2+5.7 helps us piece together how supernova explosions shape the structure, composition, and future of the Milky Way.
(SNR G156.25.7 20240601 crop 2vm5_3_7_11gh3)
Equipment
Imaging Telescopes Or Lenses
Sigma 135mm F1.8 DG HSM (Art)
Imaging Cameras
QHYCCD QHY294M Pro · ZWO ASI294MM Pro
Mounts
ZWO AM5
Filters
Astronomik Deep-Sky Blue 36mm · Astronomik Deep-Sky Green 36mm · Astronomik Deep-Sky Red 36mm · Astronomik H-alpha CCD MaxFR 6nm 36 mm · Astronomik L-2 Luminance UV/IR Block 36mm · Astronomik OIII CCD MaxFR 6nm 36 mm
Accessories
Pegasus Astro USB Control Hub · QHYCCD QHYCFW3-M-US · Talon 6 · ZWO EAF · ZWO EFW 7 x 36mm
Software
Pleiades Astrophoto PixInsight · Starkeeper Voyager Custom Array
Guiding Telescopes Or Lenses
ZWO 30mm Mini Guider Scope
Guiding Cameras
ZWO ASI290MM Mini
Acquisition details
Dates:
Feb. 13, 2024
March 6 – 8, 2024
March 12, 2024
April 3, 2024
Frames:
Astronomik Deep-Sky Blue 36mm: 100×60″(1h 40′)
Astronomik Deep-Sky Green 36mm: 100×60″(1h 40′)
Astronomik Deep-Sky Red 36mm: 100×60″(1h 40′)
Astronomik H-alpha CCD MaxFR 6nm 36 mm: 120×600″(20h)
Astronomik L-2 Luminance UV/IR Block 36mm: 200×60″(3h 20′)
Astronomik OIII CCD MaxFR 6nm 36 mm: 120×600″(20h)
Integration:
48h 20′
Avg. Moon age:
18.12 days
Avg. Moon phase:
16.22%
RA center: 04h58m05s.5
DEC center: +52°03′01″
Pixel scale: 10.990 arcsec/pixel
Orientation: -178.980 degrees
Field radius: 3.768 degrees
WCS transformation: thin plate spline
Resolution: 1749×1749
File size: 10.0 MB
Locations: AAS Montsec, Àger, Lleida, Spain
Data source: Own remote observatory
Remote source: Non-commercial independent facility
via Flickr https://flic.kr/p/2qztt41