Our most prominent research areas are summarized below. If you have questions or comments please don't hesitant to contact us using the contact page.

 

• Quantum Physics Research: We are dedicated to advancing the field of quantum physics through multiple projects aimed at expanding our understanding of the nature of reality. Our core effort is currently focused on the following publication.

  • Evaluating the Role of Conscious Observation on Quantum Collapse and Correlation Dynamics

    • Abstract: This paper revisits and extends the Consciousness Causes Collapse (CCC) hypothesis in quantum mechanics, proposing that conscious observation may influence quantum measurements beyond the scope of existing CCC models. We introduce a novel experimental approach using W states and Bell tests, designed to determine whether conscious observation uniquely disrupts the entanglement typically preserved in W states, transitioning correlated quantum states into independent classical ones. This framework bridges theoretical postulates with empirical investigation, aiming to provide the first direct test of the CCC hypothesis, with the potential to validate both its conventional and extended forms. Confirmatory results could offer new insights into the nature of consciousness and its role in quantum phenomena.

 

• Psi Research: We are intrigued by the mind's potential ability to influence physical reality, a topic supported by extensive scientific research over the past six decades from researchers such as Helmut Schmidt, the Princeton Engineering Anomalies Research (PEAR) laboratory, and Dean Radin. Substantial evidence (example) indicates that intent can affect physical reality in small but statistically significant ways. Our goal is to enhance psychokinesis ("psi") research by employing advanced hardware and algorithms, including those developed by Scott A. Wilber. We are developing psi experiments that measure a variety of variables during psi experiments, such as participant attributes (e.g., brainwave activity, galvanic skin response, emotional state) and environmental conditions (e.g., electromagnetic field strength, weather factors, and solar-geomagnetic indexes). Using machine learning techniques, we aim to identify patterns and influential variables that enhance psi success, potentially improving its observability and paving the way for real-world technological applications. The code for this project is open-sourced on GitHub.
   

• Neurochemical Modulation of Consciousness: We are investigating how specific nutraceuticals and their combinations influence advanced states of consciousness, particularly lucid dreaming and out-of-body experiences. This research aims to uncover the biochemical and physiological mechanisms that enable these extraordinary cognitive phenomena, thus making them more accessible while also contributing to a deeper understanding of both consciousness and the brain.

 

• Mobile Application: We recently launched a mobile application designed to help users directly experience and practice non-traditional capabilities of consciousness in ways that positively impact their worldview and understanding of reality. Supported modalities include lucid dreaming, remote viewing, astral projection, psychokinesis (psi), energy work, meditation, CE5, channeling, and extra-sensory perception (ESP). This application itegrates many aspects from other areas of our research through incorporation of educational materials, interactive exercises, advanced logging with AI to guide users, and a scoring system with global leaderboards to keep the experiences more engaging. See spiritualyou.net for more.

 

We're also proud to participate in the Global Consciousness Project 2.0.