2022 Quantum Fankle Entangled Light Particles Experimentation
Quantum Frankle/Entangled Light Particles
Spooky Action At A Distance
In the exhibit at
Telematic Gallery
GALACTIC SCALE INQUIRIES INTO THE NATURE OF THE COSMOS
+Robotics, Lasers, Sensor-Based Systems+
Friday November 4, 2022
6-9P.M.
by Kal Spelletich
323 10th St., San Francisco, CA 94103
https://www.tttelematiccc.com/galactic-scale-inquiries-into-the-nature-of-the-cosmos
Entanglement usually gets lost when a light particle enters a complex medium - anything that scatters or "scrambles" the light. That can be something as complex as a multi-mode optical fibre or as simple as thick fog. The result could mean new advances in ultra-secure cryptography, quantum computing and communications.
I celebrate the scientific method and references foundational scientific discoveries.
This is a body of work I have been doing for well over 15 years. Imagine my surprise when a Nobel prize(1) was given out this week for these same mind boggling experiments I am extrapolating on (entangled particles). We will be able to hear the moon, sonify crystals and see and feel the speed of light.
Another main focus is the work of astrophysicist Jocelyn Burnell. (2.)
1. https://www.nobelprize.org/prizes/physics/2022/press-release/
On Oct. 4, the Royal Swedish Academy of Sciences announced that Alain Aspect, John Clauser, and Anton Zeilinger had won for “groundbreaking experiments using quantum states, where two particles behave like a single unit even when they are separated.” The academy noted that these experiments, which built upon the 1960s research of John Stewart Bell, cleared the way for new technology such as quantum computers. Two days later, Scientific American published an in-depth article that explained how these quantum experiments proved “the universe is not locally real.”
2. 2. Burnell Is responsible for one of the most important astrophysics discoveries of the 20th century: the radio pulsar. The discovery, which she made as graduate student, earned a Nobel Prize in 1974. And it could one day form the basis of a "galactic positioning system" for navigating outside our solar system. But Bell Burnell didn't collect the Nobel. Instead, the award went to her supervisor at the University of Cambridge, Antony Hewish. She is now recognized as the pioneer who made this breakthrough discovery.
Quantum entanglement is the physical phenomenon that occurs when a group of particles are generated, interact, or share spatial proximity in a way such that the quantum state of each particle of the group cannot be described independently of the state of the others, including when the particles are separated by a large distance. The topic of quantum entanglement is at the heart of the disparity between classical and quantum physics: entanglement is a primary feature of quantum mechanics not present in classical mechanics.
Spooky Action At A Distance
One of the strangest aspects of quantum physics is entanglement: If you observe a particle in one place, another particle—even one light-years away—will instantly change its properties, as if the two are connected by a mysterious communication channel. Scientists have observed this phenomenon in tiny objects such as atoms and electrons. But in two new studies, researchers report seeing entanglement in devices nearly visible to the naked eye.
Entanglement involves putting objects in the peculiar limbo of quantum superposition, in which an object's quantum properties occupy multiple states at once: like Schrödinger's cat, dead and alive at the same time. Then those quantum states are shared among multiple objects. Physicists have entangled particles such as electrons and photons, as well as larger objects such as superconducting electric circuits.
Theoretically, even if entangled objects are separated, their precarious quantum states should remain linked until one of them is measured or disturbed. That measurement instantly determines the state of the other object, no matter how far away.
Видео 2022 Quantum Fankle Entangled Light Particles Experimentation канала namlak
Spooky Action At A Distance
In the exhibit at
Telematic Gallery
GALACTIC SCALE INQUIRIES INTO THE NATURE OF THE COSMOS
+Robotics, Lasers, Sensor-Based Systems+
Friday November 4, 2022
6-9P.M.
by Kal Spelletich
323 10th St., San Francisco, CA 94103
https://www.tttelematiccc.com/galactic-scale-inquiries-into-the-nature-of-the-cosmos
Entanglement usually gets lost when a light particle enters a complex medium - anything that scatters or "scrambles" the light. That can be something as complex as a multi-mode optical fibre or as simple as thick fog. The result could mean new advances in ultra-secure cryptography, quantum computing and communications.
I celebrate the scientific method and references foundational scientific discoveries.
This is a body of work I have been doing for well over 15 years. Imagine my surprise when a Nobel prize(1) was given out this week for these same mind boggling experiments I am extrapolating on (entangled particles). We will be able to hear the moon, sonify crystals and see and feel the speed of light.
Another main focus is the work of astrophysicist Jocelyn Burnell. (2.)
1. https://www.nobelprize.org/prizes/physics/2022/press-release/
On Oct. 4, the Royal Swedish Academy of Sciences announced that Alain Aspect, John Clauser, and Anton Zeilinger had won for “groundbreaking experiments using quantum states, where two particles behave like a single unit even when they are separated.” The academy noted that these experiments, which built upon the 1960s research of John Stewart Bell, cleared the way for new technology such as quantum computers. Two days later, Scientific American published an in-depth article that explained how these quantum experiments proved “the universe is not locally real.”
2. 2. Burnell Is responsible for one of the most important astrophysics discoveries of the 20th century: the radio pulsar. The discovery, which she made as graduate student, earned a Nobel Prize in 1974. And it could one day form the basis of a "galactic positioning system" for navigating outside our solar system. But Bell Burnell didn't collect the Nobel. Instead, the award went to her supervisor at the University of Cambridge, Antony Hewish. She is now recognized as the pioneer who made this breakthrough discovery.
Quantum entanglement is the physical phenomenon that occurs when a group of particles are generated, interact, or share spatial proximity in a way such that the quantum state of each particle of the group cannot be described independently of the state of the others, including when the particles are separated by a large distance. The topic of quantum entanglement is at the heart of the disparity between classical and quantum physics: entanglement is a primary feature of quantum mechanics not present in classical mechanics.
Spooky Action At A Distance
One of the strangest aspects of quantum physics is entanglement: If you observe a particle in one place, another particle—even one light-years away—will instantly change its properties, as if the two are connected by a mysterious communication channel. Scientists have observed this phenomenon in tiny objects such as atoms and electrons. But in two new studies, researchers report seeing entanglement in devices nearly visible to the naked eye.
Entanglement involves putting objects in the peculiar limbo of quantum superposition, in which an object's quantum properties occupy multiple states at once: like Schrödinger's cat, dead and alive at the same time. Then those quantum states are shared among multiple objects. Physicists have entangled particles such as electrons and photons, as well as larger objects such as superconducting electric circuits.
Theoretically, even if entangled objects are separated, their precarious quantum states should remain linked until one of them is measured or disturbed. That measurement instantly determines the state of the other object, no matter how far away.
Видео 2022 Quantum Fankle Entangled Light Particles Experimentation канала namlak
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