The multiverse equation: a toy model

[conjecture]

DOWNLOAD

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

Would you like to discuss and co-author this paper? (Join our open Slack channel)

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

Do extra dimensions explain entanglement?

[white paper]

DOWNLOAD

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

Would you like to discuss and co-author this paper? (Join our open Slack channel)

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

Is it possible to transfer quantum information non-locally?

[original insight]

DOWNLOAD

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

Would you like to discuss and co-author this paper? (Join our open Slack channel)

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

Superposition of field oscillations

[microreview]

DOWNLOAD

We present a discussion on the superposition of oscillating fields.

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

Open Quantum Collaboration

Would you like to discuss and co-author this paper? (Join our open Slack channel)

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

Non-local oscillating fields in quantum superposition of space

[original insight]

DOWNLOAD

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

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

Open Quantum Collaboration

Would you like to discuss and co-author this paper? (Join our open Slack channel)

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

Virtual extra dimensions in quantum superposition generate spacetime

[conjecture]

DOWNLOAD

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

Would you like to discuss and co-author this paper? (Join our open Slack channel)

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

Entanglement of Superposition and Superposition of Entanglement

[conjecture]

DOWNLOAD

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

Would you like to discuss and co-author this paper? (Join our open Slack channel)

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

Superposition as a mathematical mapping between two distinct scales

[original idea]

DOWNLOAD

A toy model is presented connecting the Planck with the macroscopic scale through a mathematical mapping to explain quantum superposition at a more fundamental level.

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

Open Physics Collaboration

Would you like to discuss and co-author this paper? (Join our open Slack channel)

Op. J. Math. Phys.
Volume 1, Article 67, 2019 [CO]

Quantum Superposition as Entanglement

[original insight]

DOWNLOAD

We propose as a hypothesis that quantum superposition can be described by mathematical relations of entanglement.

https://doi.org/10.31219/osf.io/m2ajq

Open Physics Collaboration

Would you like to discuss and co-author this paper? (Join our open Slack channel)

Op. J. Math. Phys.
Volume 1, Article 66, 2019 [CN]

Time Travel: coexistence of past, present, and future?

[original idea]

DOWNLOAD

A line of thought is presented, where time is a superposition of three-dimensional space.

https://doi.org/10.31219/osf.io/7ruay

Open Physics Collaboration

Would you like to discuss and co-author this paper? (Join our open Slack channel)

Op. J. Math. Phys.
Volume 1, Article 43, 2019 [BQ]

Spin is a superposition of circular charged trajectories

[original insight]

DOWNLOAD

Connecting classical electromagnetism, quantum superposition of trajectories and the motion of a superposition of the elementary charge distribution of the electron, we conclude that spin is a quantum superposition of circular charged trajectories.

https://doi.org/10.31219/osf.io/tv2rb

Open Physics Collaboration

Would you like to discuss and co-author this paper? (Join our open Slack channel)

Op. J. Math. Phys.
Volume 1, Article 31, 2019 [BE]