It’s clear now: iron inside the sun is more opaque than expected | Current Affairs | Vision IAS
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    It’s clear now: iron inside the sun is more opaque than expected

    2 min read

    The Mystery of Iron's Opacity in the Sun

    Introduction

    An image from June 20, 2013, highlights a solar flare and a prominence eruption on the sun. One intriguing detail about the sun, and stars in general, is understanding the opacity of iron within it.

    Importance of Iron's Opacity

    • Iron's opacity determines how much light it absorbs and scatters, crucial for understanding solar dynamics.
    • Iron plays a pivotal role in stellar structures and their evolution, affecting everything from energy transmission to magnetic fields.

    The Universe's Engines

    Stars, including the sun, are essential to understanding the universe as they influence planet formation, provide light and heat, and affect cosmic structures.

    • Stars supply planets with light, heat, and magnetic protection.
    • They influence the formation of star clusters, galaxies, and the universe's broader structure.

    Discrepancy in Models

    • Studies up to the mid-2010s showed a 30-50% discrepancy in the sun's carbon, oxygen, and nitrogen levels compared to models.
    • Models predicted various solar properties but faced challenges aligning with observed data.

    Role of Iron's Opacity

    • A 2015 study suggested that to resolve discrepancies, the opacity of solar interior matter must be 15% higher than previously thought.
    • Iron's opacity, particularly, was found to be 30-400% higher than models predicted.

    Recent Studies and Findings

    • Helioseismic studies in 2025 reported that seismic opacity is 10% higher than theoretical values around 2 million degrees Celsius.
    • Recent research tested discrepancies using novel technologies at Sandia National Laboratories.

    Advanced Measurement Techniques

    • Experiments exposed thin iron samples to X-rays, using spectrometers to measure shadow and opacity.
    • Magnesium was used as a tracer to calculate electron energy and density.

    Conclusion and Future Directions

    Measuring iron's opacity as a function of time is critical to resolving model-data discrepancies. Absolute transmission measurements, along with temporal analysis, are necessary for future research.

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    • Iron's Opacity in the Sun

    Articles Sources

    https://www.thehindu.com/sci-tech/science/iron-opacity-solar-modelling-problem-sandia-x-rays-tempora
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