Ramanujan’s Old Formulae for Pi Echo in Modern Cosmology

 

Context:

• A recent study by an Indian Statistical Institute (ISI), Bengaluru research team has drawn connections between Srinivasa Ramanujan’s mathematical formulae for π (pi) and concepts used in modern cosmology and theoretical physics.
• The work highlights how abstract number theory and infinite series, developed over a century ago, are now relevant to understanding expanding universes, boiling fluids, and complex physical systems.

Key Highlights:

Ramanujan’s Mathematical Contributions

• Srinivasa Ramanujan (1887–1920) developed highly efficient infinite series to calculate the value of π with remarkable speed and accuracy.
• His formulae, published in 1914, remain among the fastest converging series for π even today.
• Ramanujan worked largely in isolation, without formal training in modern mathematics.

Link with Modern Physics & Cosmology

• Researchers found structural similarities between:
  • Ramanujan’s π-series, and
  • Correlation functions used in quantum field theory (QFT) and cosmology.
• These mathematical structures help model:
  • Critical phenomena (sudden changes in physical systems)
  • Phase transitions (e.g., boiling of fluids)
  • Expanding universe models

Bridge Between Disciplines

• Ramanujan’s equations resemble those used to describe:
  • Turbulent fluids
  • Quantum fluctuations
  • Cosmic expansion patterns
• The study suggests that pure mathematics and physical reality may share deeper structural connections.

Historical Significance

• Ramanujan’s work was once considered purely theoretical.
• Similar historical parallels exist, such as Riemannian geometry later becoming essential for Einstein’s General Theory of Relativity.

Relevant Prelims Points:

• Who: Srinivasa Ramanujan – Indian mathematical genius.
• Key Concept: Infinite series for calculating π.
• Institution: Indian Statistical Institute (ISI), Bengaluru.
• Scientific Fields Linked:
  • Number theory
  • Quantum Field Theory
  • Cosmology
• Important Terms:
  • Infinite series
  • Correlation functions
  • Critical phenomena
  • Phase transition
• Significance: Demonstrates long-term relevance of pure mathematics.

Relevant Mains Points:

• Science & Technology Perspective:
  • The study shows how theoretical mathematics can find applications decades later in advanced sciences.
  • Highlights interdisciplinary research between mathematics and cosmology.
• Conceptual Clarity:
  • Quantum Field Theory (QFT): Framework to describe fundamental forces and particles.
  • Cosmology: Study of the origin, structure, and expansion of the universe.
  • Critical Phenomena: Points where small changes cause large effects in systems.
• Indian Contributions to Global Knowledge:
  • Ramanujan’s legacy underscores India’s historical strength in abstract science.
  • Reinforces the importance of supporting basic research, even without immediate applications.
• Way Forward:
  • Encourage investment in fundamental research.
  • Promote interdisciplinary collaboration between mathematicians and physicists.
  • Integrate history of science into STEM education to inspire innovation.

UPSC Relevance (GS-wise):

• GS I: History of science and technology
• GS III: Science & Technology, research and innovation
• GS IV: Ethics – value of intellectual pursuit and knowledge for humanity