Concerning the recent achievement in trying to connect quantum mechanics and classical gravity. They found a new form of uncertainty relation that comes from graviton noise. Well, scientists believe that fictitious gravity particles referred to as gravititons can only transport the push of soar. Studying these particles could help physicists finally solve the mystery of quantum gravity, which in return could significantly shed light on new matter such as phantom dark energy.
Classical vs Quantum Physics
On Classical and Quantum Physics
- Newton's laws can be used to explain the behavior of large objects according to classical physics
- Quantum physics is the study of tiny particles, such as atoms and electrons.
- It needs to be one that works for objects both massive and tiny, particularly in extreme locales such as black holes or the environs of neutron stars.
Quantum Gravity (QG)
- QG studies the nature of gravity from particle-levels.
- It emphasizes gravity where gravity and quantum mechanics count together.
- Evidence of gravitational noise, studied in quantum regimes to detect the characteristic constraints on viewing gravity as a quantum feature.
Research Contributions
- Per the discovery of research scholars Prof. Sunandan Gangopadhyay and Mr. Soham Sen, graviton noise leads to a new uncertainty relation
- The uncertainty relation that relates the particle position and momentum to noise created by gravitons implies a possible quantum nature of gravity.
Month: Current Affairs - September 10, 2024
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