Articles on Entanglement and Photosynthesis in Biophysics

• Articles around the 2022 Nobel Physics prize for Alain Aspect, John Clauser, and Anton Zellinger
  • The Nobel Prize in Physics 2022
  • Pioneering Quantum Physicists Win Nobel Prize in Physics
  • Explorers of Quantum Entanglement Win 2022 Nobel Prize in Physics
  • Anton Zeilinger: a quantum pioneer - October, 2010
  • A quantum renaissance - July, 2008
  • Fundamentals of quantum information - March, 1998
  • The Prize and John Bell
    • Quantum mechanics: how the future might influence the past - March, 2023 [acommpanying arXiv article - Why entanglement?]
    • Bohr, Einstein and Bell: what the 2022 Nobel Prize for Physics tells us about quantum mechanics - November, 2022
    • The Universe Is Not Locally Real, and the Physics Nobel Prize Winners Proved It - October, 2022
    • Scientists Win Physics Nobel Prize For Proving Einstein Wrong - October, 2022
    • How Bell's Theorem Proved `Spooky Action at a Distance' Is Real - July, 2021
    • Spooky Quantum Action Passes Test - December, 2018
    • John Bell and the most profound discovery of science - December, 1998
    • Thirty years of 'against measurement' - December, 2020 [Against 'measurement' - John Bell, Phys. World 3 (8), 1990]
• It takes three to tangle: Long-range quantum entanglement needs three-way interaction - May, 2022
• A review of 'classical entanglement' blurring the quantum-classical divide - May, 2022
• Physicists propose how to entangle macroscopic objects using pulses of light - June, 2020
• Does electronic coherence enhance anticorrelated pigment vibrations under realistic conditions? - April, 2019
• Artificial leaf - October, 2015
• Quantum biometrology - April, 2015
• Directing electrons with molecular vibrations - January, 2015
• Postcards from the photosynthetic edge - July, 2014
• Scientists develop new hybrid energy transfer system - May, 2014
• Nanotubes improve photosynthesis - April, 2014
• The purple heart of photosynthesis - April, 2014
• Nanoparticles boost solar-energy capture by plants - March, 2014
• Harvesting light, the single-molecule way - February, 2014
• Cobalt catalysts allow researchers to duplicate the complicated steps of photosynthesis - January, 2014
• Nanoplasmonics: Towards efficient light harvesting - January, 2014
• Plant Power - December, 2013
• Sharing Entanglement without Sending It - December, 2013
• Quantum effects help cells capture light, but the details are obscure - December, 2013
• Working together: Bacteria join forces to produce electricity - October, 2013
• Efficient and Robust: Why Quantum Transport Can Be Close to Optimal Even in Disordered Molecular Structures (August, 2013)
• Uncovering quantum secret in photosynthesis (June, 2013)
• Plants 'seen doing quantum physics' (June, 2013)
• Don't Cry over Broken Entanglement (July, 2013)
• Squeezing Out More Information About Entanglement (July, 2013)
• On a clear day: Noise-induced quantum coherence increases photosynthetic yield (February, 2013)
• Proteins boost quantum coherence in bacteria (January, 2013)
• Bacterial quantum tricks could help solar power (January, 2013)
• Entangled diamonds (January 2012)
• Tethered proteins speed up photosynthetic electron transfer (December 2011)
• Quantum physics: Hot entanglement - December, 2010
• Leafy Green Coherence: Quantum Physics Fuels Photosynthesis (July 2010)
• Untangling the Quantum Entanglement Behind Photosynthesis: Berkeley scientists shine new light on green plant secrets (May 2010)
• Quantum Mechanics Boosts Photosynthesis (February, 2010)
• Photosynthesis: Quantum Design for a Light trap (February, 2010)
• Scientists find Quantum Mechanics at Work in Photosynthesis (February, 2010)
• Dynamics of light harvesting in photosynthesis (2009)
• Coherent intrachain energy migration in a conjugated polymer at room temperature (January, 2009)
• Environment-assisted quantum walks in photosynthetic energy transfer (November, 2008)
• Evidence for wavelike energy transfer through quantum coherence in photosynthetic systems (April, 2007)
• Energy transfer in photosynthesis: experimental insights and quantitative models (February, 2006)
• Two-dimensional spectroscopy of electronic couplings in photosynthesis (March, 2005),