Roads to the Planck scale

[white paper]

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A summary of a few roads exploring the Planck scale is presented. We consider both Newtonian and relativistic systems.

https://doi.org/10.31219/osf.io/2cdwb

Open Quantum Collaboration

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Op. J. Math. Phys.
Volume 2, Article 138, 2020 [FI]

The multiverse equation: a toy model

[conjecture]

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We present a toy model for the multiverse equation built upon a single cosmic variable encompassing information of all universes, all spaces, and all times.

https://doi.org/10.31219/osf.io/dg7b2

Open Physics Collaboration

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Op. J. Math. Phys.
Volume 2, Article 136, 2020 [FG]

Do extra dimensions explain entanglement?

[white paper]

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We invite collaborators to co-author this white paper in order to collect scientific evidence connecting extra dimensions and entanglement.

https://doi.org/10.31219/osf.io/uvgaj

Open Quantum Collaboration

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Op. J. Math. Phys.
Volume 2, Article 134, 2020 [FE]

Is it possible to transfer quantum information non-locally?

[original insight]

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We discuss whether the quantum superposition of space, warp drive, and entanglement do transfer internal quantum information non-locally. In addition, the extra dimensions are conjectured to explain the aforementioned properties.

https://doi.org/10.31219/osf.io/ksjh9

Open Quantum Collaboration

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Op. J. Math. Phys.
Volume 2, Article 130, 2020 [FA]

Superposition of field oscillations

[microreview]

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We present a discussion on the superposition of oscillating fields.

https://doi.org/10.31219/osf.io/fuhd9

Open Quantum Collaboration

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Op. J. Math. Phys.
Volume 2, Article 129, 2020 [EZ]

Non-local oscillating fields in quantum superposition of space

[original insight]

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A field in superposition of space can oscillate non-locally.

https://doi.org/10.31219/osf.io/hryus

Open Quantum Collaboration

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Op. J. Math. Phys.
Volume 2, Article 128, 2020 [EY]

Entanglement of the Uncertainty Principle

[original insight]

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We propose that position and momentum in the uncertainty principle are quantum entangled states.

https://doi.org/10.31219/osf.io/9jhwx

Open Quantum Collaboration

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Op. J. Math. Phys.
Volume 2, Article 127, 2020 [EX]

Virtual extra dimensions in quantum superposition generate spacetime

[conjecture]

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We discuss about the range of the principle of quantum superposition and whether it is applied to both our spacetime and the extra dimensions as well.

https://doi.org/10.31219/osf.io/n9ytd

Open Quantum Collaboration

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Op. J. Math. Phys.
Volume 2, Article 126, 2020 [EW]

Special Edition (OJMP)

[microreview]

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We present an overview of a few articles published in the Special Edition [1] of the Open Journal of Mathematics and Physics [2].

https://doi.org/10.31219/osf.io/96xe2

Open Collaboration

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Op. J. Math. Phys.
Volume 2, Article 125, 2020 [EV]

Entanglement of Superposition and Superposition of Entanglement

[conjecture]

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We consider that the superposition of space is given by the Bell states and that those states are in superposition themselves.

https://doi.org/10.31219/osf.io/zjdrm

Open Quantum Collaboration

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Op. J. Math. Phys.
Volume 2, Article 121, 2020 [ER]

Spacetime is a quantum computer

[conjecture]

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If spacetime is a quantum computer, then all physical systems are equivalent to quantum computational algorithms.

https://doi.org/10.31219/osf.io/rnckw

Open Quantum Collaboration

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Op. J. Math. Phys.
Volume 2, Article 111, 2020 [EH]

The Warp Drive: search for a pure mathematical approach

[microresearch]

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The purpose of this microarticle is to issue an open invitation in order to collaboratively devise the connection between the warp drive and its corresponding pure mathematical formulation (definitions, theorems, prerequisites). By this approach, I believe one can fully understand the mechanisms underlying this process, and we could finally move toward its application.

https://doi.org/10.31219/osf.io/ht246

Open Mathematics Collaboration

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Op. J. Math. Phys.
Volume 2, Article 87, 2020 [DJ]

A hole in the black hole

[microresearch]

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Supposedly, matter falls inside the black hole whenever it reaches its event horizon. The Planck scale, however, imposes a limit on how much matter can occupy the center of a black hole. It is shown here that the density of matter exceeds Planck density in the singularity, and as a result, spacetime tears apart. After the black hole is formed, matter flows from its center to its border due to a topological force; namely, the increase on the tear of spacetime due to its limit, until it reaches back to the event horizon, generating the firewall phenomenon. We conclude that there is no spacetime inside black holes. We propose a solution to the black hole information paradox.

https://doi.org/10.31219/osf.io/js7rf

Open Physics Collaboration

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Op. J. Math. Phys.
Volume 2, Article 78, 2020 [DA]

Gravity and Entanglement

[original idea]

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In the realm of microscience, this is a minimalist article exploring the relation between gravity and entanglement in a heuristic fashion.

https://doi.org/10.31219/osf.io/23c7m

Open Mathematics Collaboration

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Op. J. Math. Phys.
Volume 1, Article 10, 2019 [AJ]

The insight behind the discovery of quanta by Max Planck

[original insight]

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We explore the origin of Planck’s insight, E=hv.

https://doi.org/10.31219/osf.io/a9xmt

Open Mathematics Collaboration

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Op. J. Math. Phys.
Volume 1, Article 6, 2019 [AF]

On the infinity of the Dirac delta function

[microresearch]

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This is a microarticle on the infinity of the Dirac delta function.

https://doi.org/10.31219/osf.io/6t98u

Open Mathematics Collaboration

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Op. J. Math. Phys.
Volume 1, Article 5, 2019 [AE]

On the wave-particle duality: mass and frequency

[original insight]

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The Nobel achievement on the wave-particle duality is presented in a very logical approach.

https://doi.org/10.31219/osf.io/9xa6v

Open Mathematics Collaboration

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Op. J. Math. Phys.
Volume 1, Article 4, 2019 [AD]