![\"JWST\/NIRISS](\"https:\/\/www.newsbeep.com\/il\/wp-content\/uploads\/2025\/12\/image-38-scaled.png.webp.webp\")
\u00a0JWST\/NIRISS excess absorption time series around the helium triplet relative to mid-transit time in the stellar rest frame. The red dashed lines represent the transit ingress and egress, while the two secondary eclipses ingress and egress are shown with the orange dashed dotted lines. Clear excess is detected as the dark blue region not only during the full transit, but also before and after, for a large fraction of the orbit, suggesting an extended outflow. The color scale was truncated to \u2212500 to +500\u2009ppm for better visualization purposes.
Credit: Nature Communications\u00a0(Nat Commun)<\/p>\n
Groundbreaking Instrumental Contribution<\/p>\n
The discovery was made possible thanks to the continuous high-precision data from JWST\u2019s NIRISS instrument, which is designed to probe the atmospheres of distant exoplanets. According to Louis-Philippe Coulombe, the study\u2019s second author, \u201cThe continuous, high-precision data from NIRISS are what made this discovery possible.\u201d The phase curve\u2014used to observe a full orbit of the planet\u2014allowed the team to access a wealth of information not just about the escaping atmosphere, but about other properties like the planet\u2019s composition, climate, and energy budget. This breakthrough showcases the immense value of NIRISS, which has become a crucial tool for understanding exoplanet atmospheres.<\/p>\n
Thanks to Canada\u2019s contribution to the JWST, the country\u2019s scientists have been able to push the boundaries of space exploration, providing critical insights into the dynamics of distant worlds. The results of this study underscore the significant role that Canada has played in shaping the global understanding of exoplanet science.<\/p>\n
Implications for Exoplanet Research<\/p>\n
The results from this study have profound implications for the future of exoplanet exploration. By observing WASP-121 b\u2019s helium escape over a full orbit, the study sets the stage for future investigations of other distant exoplanets. Researchers are now poised to explore whether the double-tail structure discovered around WASP-121 b is a rare occurrence or if it\u2019s common among other hot exoplanets. The ability to monitor these systems in real time offers new opportunities to investigate planetary evolution and the processes that shape these distant worlds.<\/p>\n
In addition, this research could provide valuable insights into the \u201cNeptune desert\u201d\u2014the scarcity of small, close-in gas giants. These planets may be the remnants of once-larger worlds whose atmospheres have been stripped away by the intense radiation from their parent stars. By examining how exoplanet atmospheres are eroded, astronomers could better understand the fate of these gas giants.<\/p>\n