Quantum Computing: Where Hollywood, AI, and UAP Meet

It All Connects! By Lisa Puzo Strickland, PhD

August 2025

Here in Nashville, my husband and I recently hosted a meeting in which we discussed the need for stronger television and film tax incentives in Tennessee. Sitting at our dining room table were actors and industry executives all hopeful to establish the financial framework necessary to increase filming in our beautiful state.  

The agenda included discussing the radical impact that AI has made on content creation. So, the conversation naturally drifted to quantum computing which will even further change the art of film making - and dramatically so.

I, being more philosophically spirited and less technologically minded, asked what the basic differences are between AI and quantum computing, or QC. One of our guests that day, the producer of the blockbuster movie, 300, starring Gerard Butler, kindly explained QC to us.

QUANTUM COMPUTING IN ONE TAKE:

Put simply, a quantum computer can perform many functions and explore multiple solutions simultaneously - unlike a classical computer which can only handle one task and analyze one solution at a time.

This capability stems from three fundamental principles of quantum mechanics: superposition, entanglement, and coherence.

Unlike classical computers that run AI and use bits (0’s and 1’s) interchangeably, quantum computers use qubits, or quantum bits, which are much smaller and can use 0’s and 1’s simultaneously.

In quantum speak, the simultaneous action of two particles existing at the same time is called superposition.

Add to this superposition another property of quantum computing: entanglement, or when two protons (in this case qubits) are quantumly linked and, therefore, instantaneously affect one another.

The superposition and entanglement of qubits allows for the coherence needed for quantum computing operations to operate with a higher degree of accuracy than its classical counterpart.

Although QC is up and running, further development is still needed to widely integrate its applications. Once that happens, the world will see great leaps in drug and medical research, autonomous vehicles, and space exploration. And in TV/Film.

QC IN VISUAL ENTERTAINMENT

It’s Lights! Camera! Action! for quantum computing.

QC is being tapped to create richly realistic backgrounds, foregoing the need for expensive street scenes and big soundstages, as well as for unprecedented visual effects, such as a reptilian extraterrestrial disembarking from a craft that just landed in a suburban backyard.

And amazingly, given QC’s cutting-edge qualities coupled with current brain-computer interface technologies (BCI’s), it’s not a stretch that someday filmmakers will be able to create participatory or immersive content.

Imagine being in a movie and changing the script with your thoughts. Can’t wait to see what Steven Spielberg does with that. 

After hearing Mr. Producer’s explanation of QC, I wondered: how could quantum computing possibly become an ally in the search for, the understanding of, and communication with unidentified aerial phenomena (UAP) and non-human intelligence (NHI)?

Or the where, the what, and the who. I credit today’s biggest celebrity in research and dialogue, ChatGPT, for the following intel…

“WHERE IS EVERBODY?”

Physicist Enrico Fermi’s famous question is now known as the Fermi Paradox. Fermi wanted to know where the evidence is for extraterrestrial civilizations who live on habitable planetary bodies which may exist somewhere within our vast universe.

Of course, UAP experiencers, researchers, and enthusiasts are very familiar with the existing evidence. Quantum computing, however, will both enrich the compiled proof and serve in the vital role of detecting anomalies in the search for more proof.

To explain, using pattern recognition, QC can and will more quickly assess any infrared recordings and radar returns that appear anomalous (or out of the ordinary), thus aiding in the differentiation between human and non-human made technologies.

QC will also detect anomalous acceleration, maneuverability, and energy emissions not characteristic of military, commercial, or satellite aviation - or Superman.

Anomalous detection is enhanced by multimodal fusion, or the integration of information from multiple sources that can result in improved surveillance and faster retrieval of non-human flight technology.

With QC basically being AI on steroids, the Where part of the equation won’t be so ambiguous.

WHAT IS IT?

What is It? This is undoubtedly the first question one asks of something disappearing from radar or hovering above the skyline. And quantum computing will have some answers.

…because the more advanced our computing capabilities, the more efficiently we can analyze non-human materials and the more fully we will understand the hyper-advanced control systems of UAP craft.

In other words, the better our tools, the deeper our knowledge.

And as any engineer will tell you, sometimes the best way to truly understand something retrieved is to take it apart and put it back together again, aka reverse engineering.

Reverse engineering boosted by quantum computing will simplify the replication of UAP propulsion systems, anti-gravity capacities, and potential threat scenarios.

WHO ARE THEY AND WHAT ARE THEY SAYING?

Quantum computing, once again, is feasible because of the quantum properties of superposition and entanglement.

Entanglement is also the psionic mechanism behind consciousness-driven telepathy, or non-local communication, Ie: two entangled minds telepathically communicating.

Therefore, QC bridges the metaphysical component of consciousness with the quantum property of entanglement:

Consciousness >>> Quantum Computing <<< Entanglement

As I often say, It All Connects! And any sort of communication possible between humans and NHI will certainly help us better understand who they are.

And due to this entanglement coherence, QC will accelerate the cryptoanalysis of non-human communications and signals so we can learn what they are saying.

Cryptoanalysis applications will include:

• Electromagnetic signatures

• Orb-light pattern analysis

• NHI body or facial movements

• EEG patterns in telepathic communications

To break this down, with QC, everything from blinking orb patterns to neural network functioning to language processing will be more easily deciphered.

2030

Experts predict that by the year 2030, advancements in quantum computing will greatly expand the fundamentals of our reality.

Technology overall will revamp society by revolutionizing science and production.

And quantum computing will enable quicker UAP detection and analysis.

In addition, human consciousness will be more acutely connected to outside fields like filmmaking and extraterrestrial life, thus paving the way not only for heightened creativity but also for increased communications between humans and computers.

And between humans and non-humans.

Our world today is fast and furious.

It is a matrix of varying biologics and trending technologies, unafraid and undeterred.

We’re not in Kansas anymore! Or, as Gerard Butler’s character in 300 would say, “This is Sparta!”

SOURCES:

300 quote: Warner Bros. Pictures

Title image: LPS, Canva

Other images: Canva

Lisa Puzo Strickland holds a PhD in Philosophy and Parapsychology. She is a Member of the Board of Directors of the Hollywood Disclosure Alliance.