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Redeeming India’s Nuclear Power Promise: A Clean Energy Imperative for 2047

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Introduction: A Nuclear Vision for Viksit Bharat@2047 As India marches toward its ambitious goal of becoming a developed nation by 2047, energy security stands as a pivotal pillar in the vision of Viksit Bharat . Amid the global climate crisis and rising energy demands, nuclear power has re-emerged as a compelling solution. India’s commitment to achieving 100 GW of nuclear power capacity by 2047 is both visionary and necessary—but achieving this requires a strategic shift in policy, participation, and international cooperation. While India’s nuclear energy sector has traditionally been a tightly controlled domain under government monopoly—primarily led by the Department of Atomic Energy (DAE) and Nuclear Power Corporation of India Limited (NPCIL) —it is now imperative to welcome private sector investments and foreign partnerships. A reformed nuclear ecosystem can unlock the full potential of atomic energy as a clean, reliable, and scalable contributor to India’s net-zero aspiration...

Understanding Solar Coronal Holes: Key Features and Their Role in Space Weather

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Understanding Solar Coronal Holes: Key Features and Their Role in Space Weather 


What Are Solar Coronal Holes?
  • Dark areas seen in extreme ultraviolet (EUV) and soft x-ray images of the Sun.
  • Appear darker because they are cooler and less dense than the surrounding solar plasma.
Key Features of Solar Coronal Holes:

  1. Open Magnetic Fields:

    • Coronal holes have unipolar magnetic fields that extend into space.
    • Unlike closed magnetic loops seen elsewhere on the Sun, these open fields allow solar particles to escape.

  2. High-Speed Solar Wind:

    • The open magnetic structure enables high-speed solar wind streams to flow outward into the solar system.
    • These winds are a significant source of charged particles in space.

  3. Location and Timing:

    • Coronal holes can form at any time and anywhere on the Sun’s surface.
    • Most commonly observed near the Sun’s poles but can appear at mid-latitudes or near the equator.
    • Their size and frequency change with the Sun’s 11-year solar cycle.
Impact on Earth:
  • High-speed solar wind from coronal holes can interact with Earth’s magnetic field.
  • This interaction can trigger geomagnetic storms, leading to:
    • Auroras: Stunning light displays near Earth’s poles.
    • Communication Disruptions: Affecting radio signals and GPS accuracy.
    • Satellite and Power Grid Damage: High-energy particles can harm satellites and electrical systems.
Scientific Importance:
  • Coronal holes are closely monitored to predict space weather and geomagnetic storms.
  • Understanding their physical properties (temperature, density, and magnetic field strength) helps improve forecasts for solar wind conditions.
  • Recent studies aim to refine measurements of these parameters, contributing to better space weather predictions.
Summary:

Solar coronal holes are critical to understanding the Sun’s behavior and its effects on Earth. Continued observation and research will enhance our ability to predict and mitigate the impacts of space weather on modern technology.

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