Event Horizon | New Backwards Time Travel Simulations with Dr. Kater Murch @EventHorizonShow | Uploaded September 2024 | Updated October 2024, 5 days ago.
Researchers at the University of Cambridge have developed simulations based on quantum entanglement that mimic the effects of hypothetical backward time travel, allowing experimentalists to retroactively adjust past actions. By manipulating entangled particles, they aim to solve complex problems in quantum metrology, such as improving experiment outcomes even when optimal conditions are only known after the fact. Although this approach doesn’t allow actual time travel, it uses the principles of quantum mechanics to refine scientific experiments and achieve better results in a controlled and probabilistic manner.
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Music:
stellardrone.bandcamp.com
migueljohnson.bandcamp.com
leerosevere.bandcamp.com
aeriumambient.bandcamp.com
FOOTAGE:
NASA
ESA/Hubble
ESO - M.Kornmesser
ESO - L.Calcada
ESO - Jose Francisco Salgado (josefrancisco.org)
NAOJ
University of Warwick
Goddard Visualization Studio
Langley Research Center
Pixabay
backward time travel,quantum metrology,entangled particles,experiment optimization,quantum mechanics,scientific experiments,Cambridge research,probabilistic outcomes,quantum physics,simulations,time manipulation,John Michael Godier,Event Horizon,Kater Murch,University of Cambridge,hypothetical time travel,quantum research,scientific innovation,quantum principles
Researchers at the University of Cambridge have developed simulations based on quantum entanglement that mimic the effects of hypothetical backward time travel, allowing experimentalists to retroactively adjust past actions. By manipulating entangled particles, they aim to solve complex problems in quantum metrology, such as improving experiment outcomes even when optimal conditions are only known after the fact. Although this approach doesn’t allow actual time travel, it uses the principles of quantum mechanics to refine scientific experiments and achieve better results in a controlled and probabilistic manner.
YouTube Membership: youtube.com/channel/UCz3qvETKooktNgCvvheuQDw/join
Podcast: https://anchor.fm/john-michael-godier/subscribe
Apple: apple.co/3CS7rjT
More JMG
youtube.com/c/JohnMichaelGodier
Want to support the channel?
Patreon: patreon.com/EventHorizonShow
Follow us at other places!
@JMGEventHorizon
Music:
stellardrone.bandcamp.com
migueljohnson.bandcamp.com
leerosevere.bandcamp.com
aeriumambient.bandcamp.com
FOOTAGE:
NASA
ESA/Hubble
ESO - M.Kornmesser
ESO - L.Calcada
ESO - Jose Francisco Salgado (josefrancisco.org)
NAOJ
University of Warwick
Goddard Visualization Studio
Langley Research Center
Pixabay
backward time travel,quantum metrology,entangled particles,experiment optimization,quantum mechanics,scientific experiments,Cambridge research,probabilistic outcomes,quantum physics,simulations,time manipulation,John Michael Godier,Event Horizon,Kater Murch,University of Cambridge,hypothetical time travel,quantum research,scientific innovation,quantum principles
