Life on the Edge-Chapter 4 (The quantum beat)

https://is1-ssl.mzstatic.com/image/thumb/Podcasts221/v4/f3/6a/5d/f36a5dae-54ee-046d-79c1-fc2e0a230c55/mza_2789857883150963722.jpg/600x600bb.jpg

Inside Quantum Biology

Omid Hassasfar

13 episodes

4 days ago

Inside Quantum Biology explores the intriguing and rapidly growing field of quantum biology, investigating how quantum mechanics may play a role in biological processes to enable specific functions. This field challenges the traditional belief that quantum effects—such as superposition, coherence, tunneling, and entanglement—typically observed in controlled, cold, vacuum, and closed systems, are too fragile to operate in the dynamic, warm, wet, and complex open environments of living organisms. Curious minds unite! Connect with me on LinkedIn: https://www.linkedin.com/in/abbas-omid-hassasfar/

Science

RSS

All content for Inside Quantum Biology is the property of Omid Hassasfar and is served directly from their servers with no modification, redirects, or rehosting. The podcast is not affiliated with or endorsed by Podjoint in any way.

Science

https://d3t3ozftmdmh3i.cloudfront.net/staging/podcast_uploaded_nologo/42102789/42102789-1728593879088-f5652b188ff9b.jpg

Life on the Edge-Chapter 4 (The quantum beat)

Inside Quantum Biology

16 minutes 5 seconds

9 months ago

Life on the Edge-Chapter 4 (The quantum beat)

This excerpt from "Life on the Edge" explores the quantum mechanics involved in photosynthesis. It begins by introducing the question of how trees create their substance from air and light, referencing Richard Feynman and MIT's contributions to science. The text then examines the two-slit experiment to illustrate the wave-particle duality of quantum mechanics. It discusses quantum coherence and decoherence, explaining how these processes relate to photosynthesis. Finally, it looks at the role of chlorophyll and excitons in capturing and transferring solar energy, highlighting the efficiency of this quantum process. The text suggests that quantum mechanics plays a crucial role in photosynthesis and other natural processes.