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Angela Farmer : Living Fully In Our Bodies (Full Class)
At about the 34:42 minute marker
https://youtu.be/wCJfXwm97rw
Super: #QuantumEchoes incl. running simulations FWD & in reverse #ReversingTheArrowOfTime
https://x.com/sgkmacleod/
https://x.com/TheOpenBand/
https://x.com/HarbinBook/
https://x.com/scottmacleod/
https://x.com/Q_YogaMacFlower/
https://x.com/WUaSPress/
https://x.com/WUaSPress/
https://x.com/HarbinBook/
https://x.com/scottmacleod/
https://x.com/sgkmacleod/
https://x.com/Q_YogaMacFlower/
https://x.com/TheOpenBand/
What is Reversing The Arrow Of Time here in these Quantum Super Echoes - https://youtube.com/shorts/ AFhuNsebOpA and how could this be developed to determine complex molecular structures for aging reversal and extreme longevity genetic drUg therapies emerging FDA approved and with the Google Quantum computer at UCSB for ex?
What is "Reversing the Arrow of Time" in Quantum Super Echoes?
In classical physics, entropy dictates that once a system scrambles—like a drop of ink dissolving in the ocean—it is practically impossible to perfectly undo [00:08]. However, in the quantum realm, Google Quantum AI's "Quantum Echoes" algorithm utilizes a time-reversal protocol that mimics rewinding the clock [00:15].
The mechanism works through Out-of-Time-Order Correlators (OTOCs) run on Google's 105-qubit Willow chip:
- Forward Evolution: A carefully crafted quantum signal is sent forward through the quantum processor, allowing qubits to interact and scramble information [00:34].
- Perturbation (The Tweak): A slight perturbation or "tweak" is applied to one of the qubits [00:34].
- Backward Evolution (The Rewind): The quantum system's evolution is precisely reversed [00:34].
- Constructive Interference: Because the quantum state is reversed, the signal "unscrambles" itself and constructive interference amplifies a return signal—the "Quantum Echo" [00:41].
This allows scientists to rescue complex, weak quantum signals that would normally be lost to noise or classical decay, acting essentially as a quantum microscope [01:45].
Developing This for Aging Reversal & Extreme Longevity Genetic Drug Therapies
To advance extreme longevity research and develop genetic drug therapies that can successfully clear FDA-approval pipelines, we must understand exactly how molecules interact at the atomic scale. Historically, Google Quantum AI's hardware research has been closely integrated with the University of California, Santa Barbara (UCSB).
Using the Willow chip's verifiable quantum advantage—which completes in 2 hours what would take a classical supercomputer roughly 13,000 times longer [00:48]—this technology can be developed to accelerate drug discovery in several key ways:
1. A High-Precision "Molecular Ruler" for NMR
In proof-of-principle work with UC Berkeley, Google applied this algorithm to perform NMR (Nuclear Magnetic Resonance) spectroscopy on organic molecules [01:12]. NMR is the standard tool used by biochemists to determine molecular geometry. Quantum echoes allow NMR to act as a much "longer" molecular ruler, resolving atomic distances and 3D structures that conventional methods simply cannot reach.
2. Resolving Protein Folding in Aging Pathways
Many aging-related diseases and longevity targets involve complex, misfolded proteins or intricate epigenetic regulators. Quantum computing can simulate protein folding in their natural medium [01:31], bypassing classical computational bottlenecks. Scaling this technique to molecules with 50 to 60 spins will allow researchers to accurately model how longevity therapies fold and bind [01:26].
3. Mapping Exact Drug-Target Binding
Before an extreme-longevity genetic therapy or small molecule can win FDA approval, researchers must prove exactly how and where it binds to its target receptors to minimize off-target side effects. A quantum microscope powered by Willow can map these drug-target interfaces at unprecedented resolutions, dramatically shortening the pre-clinical trial design phase and optimizing drug efficacy.
To learn more about how Google is scaling this technology from theory to physical biochemistry, you can watch the full video on the Google Research YouTube Channel.
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https://en.wikipedia.org/wiki/Pogogyne_clareana
https://commons.wikimedia.org/wiki/Category:Pogogyne_clareana?uselang=war
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