Draft:Vineet Sharma

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Declined by Jlwoodwa 21 days ago. Last edited by Jlwoodwa 21 days ago. Reviewer: Inform author.

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Vineet Sharma

Vineet Sharma is an Indian physicist recognized for formulating the theoretical framework known as Chronoentropy. This model proposes a fundamental relationship between entropy, time, and gravity, suggesting that time emerges as a consequence of entropy evolution under gravitational influence.

Research and Contributions

Sharma's principal contribution to theoretical physics is the development of the Chronoentropy model, which posits the equation:

S ∝ t / G

where:

S represents entropy,
t denotes time,
G signifies the gravitational constant.

This equation implies that the flow of time is a manifestation of entropy increase modulated by gravity. The model integrates concepts from black hole thermodynamics, entropic gravity, and the holographic principle to derive this relationship and explore its implications for the nature of spacetime. Sharma's approach reinforces the perspective that spacetime is not a fundamental entity but rather an emergent phenomenon rooted in information dynamics.Sharma, Vineet (2025). "Chronoentropy: A Model for the Emergence of Time from Entropy and Gravity". International Journal for Multidisciplinary Research. 7 (2): 1–4. doi:10.36948/ijfmr.2025.v07i02.40161.

Fundamental Laws of Chronoentropy

The Chronoentropy framework is built upon several foundational principles:

1. **Information-Spacetime Interlinkage**: Information and spacetime are interlinked, meaning information can be converted into spacetime and vice versa.

2. **Entropy-Spacetime-Gravity Relationship**: Entropy is directly proportional to spacetime and inversely proportional to gravity.

3. **Time as a Fundamental Quantity**: Time remains a fundamental quantity in this framework.

These principles are supported by analyses involving black hole thermodynamics and the behavior of information in gravitational systems.

Black Hole Thermodynamics and Temporal Evolution

The Bekenstein-Hawking entropy formula for black holes is given by:

S = (πk_B A c³) / (4Għ)

where:

A is the event horizon area,
k_B is Boltzmann's constant,
c is the speed of light,
G is the gravitational constant,
ħ is the reduced Planck's constant.

The lifetime of a black hole due to Hawking radiation is:

t_evap ≈ (5120πG²M³) / (ħc⁴)

By expressing entropy in terms of spacetime volume and relating it to the evaporation time, Sharma suggests a fundamental link between entropy and time, reinforcing the proposed Chronoentropy equation.

Entropic Gravity and Holographic Principle

Sharma's model draws upon the concept of entropic gravity, where gravity is viewed as an emergent phenomenon resulting from the statistical behavior of microscopic degrees of freedom encoded on a holographic screen. The holographic principle states that the information within a volume of space can be represented as encoded data on the boundary of that space. This leads to the relationship:

dS/dt ∝ 1/G

Integrating this relationship supports the Chronoentropy equation, suggesting that time is intrinsically linked to entropy evolution in gravitational systems.

Implications and Future Directions

The Chronoentropy framework presents a paradigm shift in understanding time and spacetime emergence. Key implications include:

**Quantum Gravity**: Suggests a deep relationship between entropy and quantum time evolution.

**Cosmology**: Proposes that the arrow of time may be driven by entropy growth in an expanding universe.

**Black Hole Information Paradox**: Offers a new perspective on information retention and retrieval from black holes.

**Experimental Tests**: Points toward potential empirical support through observations of gravitational entropy growth in black hole mergers and quantum information flow in AdS/CFT correspondence.

Recognition

In recognition of his work on Chronoentropy, Sharma was honored by the International Book of Records at Guru Nanak Dev University, Amritsar. His research has garnered attention for its innovative approach to fundamental physics concepts."Teen's physics discovery on time, entropy earns global honour". Retrieved 31 May 2025.