Sci.Physics.Foundations

FrediFizzx wrote: ↑Sun Sep 29, 2024 9:58 am Sure, mathematical artifacts can exist at the same time. Qubits give you 2^n mathematical artifact "states".

FrediFizzx wrote: ↑Sat Sep 28, 2024 10:16 am

Joy Christian wrote: ↑Sat Sep 28, 2024 12:22 am

FrediFizzx wrote: ↑Fri Sep 27, 2024 1:59 pm Measurement time.

That is just one time at which the qubit state Psi(t) is measured. Not two different times. So up and down states do exist at the same time, just as I said.

The spin system is in the qubit state, which is given by Psi(t) = a(t) x up + b(t) x down. This state Psi(t) is measured at the time of measurement, say t_m.

Measurement of the qubit produces an up OR down; not both.

Joy Christian wrote: ↑Sat Sep 28, 2024 12:22 am

FrediFizzx wrote: ↑Fri Sep 27, 2024 1:59 pm Measurement time.

That is just one time at which the qubit state Psi(t) is measured. Not two different times. So up and down states do exist at the same time, just as I said.

The spin system is in the qubit state, which is given by Psi(t) = a(t) x up + b(t) x down. This state Psi(t) is measured at the time of measurement, say t_m.

FrediFizzx wrote: ↑Fri Sep 27, 2024 1:59 pm Measurement time.

FrediFizzx wrote: ↑Fri Sep 27, 2024 10:50 am

Joy Christian wrote: ↑Fri Sep 27, 2024 1:46 am

FrediFizzx wrote: ↑Thu Sep 26, 2024 11:57 am
Do you have a reference for that? I don't ever recall seeing that.

The qubit state is written down explicitly in Mikhail Dyakonov's talk I linked above: https://www.facebook.com/michel.dyakono ... z8gFDuL0DD

That is not the issue. And not a good reference for "...exist at the same time". And..., is he a "quantum computing guy"?

Joy Christian wrote: ↑Fri Sep 27, 2024 1:46 am

FrediFizzx wrote: ↑Thu Sep 26, 2024 11:57 am

Joy Christian wrote: ↑Thu Sep 26, 2024 12:38 am
This is a qubit state in which up and down states exist at the same time, at least according to the quantum computing guys.

Do you have a reference for that? I don't ever recall seeing that.

The qubit state is written down explicitly in Mikhail Dyakonov's talk I linked above: https://www.facebook.com/michel.dyakono ... z8gFDuL0DD

FrediFizzx wrote: ↑Thu Sep 26, 2024 11:57 am

Joy Christian wrote: ↑Thu Sep 26, 2024 12:38 am
This is a qubit state in which up and down states exist at the same time, at least according to the quantum computing guys.

Do you have a reference for that? I don't ever recall seeing that.

Joy Christian wrote: ↑Thu Sep 26, 2024 12:38 am
This is a qubit state in which up and down states exist at the same time, at least according to the quantum computing guys.

FrediFizzx wrote: ↑Wed Sep 25, 2024 6:25 pm

Joy Christian wrote: ↑Wed Sep 25, 2024 1:09 pm

FrediFizzx wrote: ↑Wed Sep 25, 2024 12:42 pm So, you agree that probability waves exist as mathematical objects. Is that correct? If so, then we can have probability based superposition. Do you agree?

I understand what probability is. And I understand what quantum superposition is. But what is "probability based superposition"?

It is what quantum superposition is basically. Say that the coefficients of the up and down states of the qubit are equal at 1/sqrt(2). Then there is a 50 percent probability that the qubit is either up and a 50 percent probability that it is down. Does that mean that the qubit is up and down at the same time? I don't think so.

Joy Christian wrote: ↑Wed Sep 25, 2024 1:09 pm

FrediFizzx wrote: ↑Wed Sep 25, 2024 12:42 pm So, you agree that probability waves exist as mathematical objects. Is that correct? If so, then we can have probability based superposition. Do you agree?

I understand what probability is. And I understand what quantum superposition is. But what is "probability based superposition"?

FrediFizzx wrote: ↑Wed Sep 25, 2024 12:42 pm So, you agree that probability waves exist as mathematical objects. Is that correct? If so, then we can have probability based superposition. Do you agree?

FrediFizzx wrote: ↑Wed Sep 25, 2024 9:29 am

Joy Christian wrote: ↑Wed Sep 25, 2024 12:03 am

FrediFizzx wrote: ↑Tue Sep 24, 2024 4:57 pm Do you believe that probability waves exist?

I don't even know what "probability waves exist" means. What exists are measurement results, or clicks of detectors, or eigenvalues of Hermitian operators.

I didn't mean exists as a physical object but exists as a mathematical object based on real physical events.

Joy Christian wrote: ↑Wed Sep 25, 2024 12:03 am

FrediFizzx wrote: ↑Tue Sep 24, 2024 4:57 pm Do you believe that probability waves exist?

I don't even know what "probability waves exist" means. What exists are measurement results, or clicks of detectors, or eigenvalues of Hermitian operators.

FrediFizzx wrote: ↑Tue Sep 24, 2024 4:57 pm Do you believe that probability waves exist?

FrediFizzx wrote: ↑Sun Sep 22, 2024 4:59 pm

Joy Christian wrote: ↑Sun Sep 22, 2024 12:10 am

FrediFizzx wrote: ↑Sat Sep 21, 2024 4:15 pm Superposition is a consequence of wave action. Classical waves can have superposition so it stands to reason that quantum probability waves could have superposition also.

Ballentine is not questioning that. You are missing his explanation that the supposition principle does not violate classical probabilities as usually claimed.

No problem, I got that from Ballentine OK so didn't miss it.

Returning to the main question you raised concerning the rationale behind the quantum computing hype, the hype is driven by the belief that quantum superposition and quantum entanglement are something non-classical. Indeed, all of the physics of the past 100 years is driven by this belief that quantum mechanics is a new discovery, revealing mystical properties that go beyond classical mechanics. But Ballentine deflates this belief. He shows that, while quantum mechanics is indeed not the same as classical mechanics, it does not require a new non-classical probability theory to understand it as usually believed, either implicitly or explicitly. This also deflates your initial question about needing a "disproof" of superposition to undermine the quantum computing hype. Ballentine provides that disproof without dismissing the phenomenon of superposition. Hence, quantum computing is a misguided hype.

For me, quantum mechanics is simply about probabilities and the math for it. Your last three sentences do not compute.

Joy Christian wrote: ↑Sun Sep 22, 2024 12:10 am

FrediFizzx wrote: ↑Sat Sep 21, 2024 4:15 pm Superposition is a consequence of wave action. Classical waves can have superposition so it stands to reason that quantum probability waves could have superposition also.

Ballentine is not questioning that. You are missing his explanation that the supposition principle does not violate classical probabilities as usually claimed.

Returning to the main question you raised concerning the rationale behind the quantum computing hype, the hype is driven by the belief that quantum superposition and quantum entanglement are something non-classical. Indeed, all of the physics of the past 100 years is driven by this belief that quantum mechanics is a new discovery, revealing mystical properties that go beyond classical mechanics. But Ballentine deflates this belief. He shows that, while quantum mechanics is indeed not the same as classical mechanics, it does not require a new non-classical probability theory to understand it as usually believed, either implicitly or explicitly. This also deflates your initial question about needing a "disproof" of superposition to undermine the quantum computing hype. Ballentine provides that disproof without dismissing the phenomenon of superposition. Hence, quantum computing is a misguided hype.