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Hubble Space Telescope captures image of supernova SN 2022aajn, located 600 million light-years away in galaxy WISEA J070815.11+210422.3.
By Aniket Chakraborty
Feb 5, 2025
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Type 1a supernovae serve as "standard candles" in astronomy due to their consistent intrinsic luminosity across all wavelengths.
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The Cosmic Distance Ladder uses standard candles to determine accurate distances to extremely distant objects in space.
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Hubble is observing 100 Type 1a supernovae to improve calibration of standard candle measurements.
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Intergalactic dust poses a challenge by reddening light from distant supernovae, making accurate distance measurements difficult.
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Prof. Ryan Foley leads a program aimed at reducing distance biases in Type 1a supernova measurements.
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Current measurement methods can have errors up to 6% when calculating distances to objects hundreds of millions of light-years away.
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Researchers are using seven different wavelength bands, from ultraviolet to near-infrared, to improve measurement accuracy.
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Type 1a supernovae occur in binary systems where a white dwarf draws material from its companion star until explosion.
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This research is crucial for developing a more accurate cosmic distance ladder and better understanding of the Universe.
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