Toggle light / dark theme

Get the latest international news and world events from around the world.

Log in for authorized contributors

Was William James Right About Consciousness?

Dr. Nicolas Rouleau is a neuroscientist, bioengineer, and Assistant Professor of Health Sciences at Wilfrid Laurier University. He wrote the award-winning essay, ‘An Immortal Stream of Consciousness: The scientific evidence for the survival of consciousness after permanent bodily death,’ in which he argues that the transmissive theory of consciousness may actually be more consistent with emerging scientific insights than the dominant assumption that the brain generates consciousness.

In this conversation with Hans Busstra, Rouleau shares the main arguments from his essay, which touch upon his collaboration with Dr. Michael Persinger, the inventor of the ‘God Helmet,’ and his work with Michael Levin on ‘mind blindness’—the idea that science may be searching for mind in too restricted a place by focusing almost exclusively on neurons.

More information on Dr. Nic Rouleau:
https://www.wlu.ca/academics/facultie… website: https://www.rouleaulab.com/ Further reading and scientific references discussed in this video: Rouleau’s BICS Essay: ‘An Immortal Stream of Consciousness: The scientific evidence for the survival of consciousness after permanent bodily death.’ https://www.bigelowinstitute.org/inde… Rouleau, N., Levin, M., et al. (2025) (Preprint; forthcoming in Philosophical Transactions of the Royal Society). Brains and Where Else? Mapping Theories of Consciousness to Unconventional Embodiments. https://tinyurl.com/439rrn8z Rouleau, N., & Levin, M. (2023). The Multiple Realizability of Sentience in Living Systems and Beyond. eNeuro, 10(11). https://tinyurl.com/2s4bdtmm Rouleau, N. & Cimino, N. (2022). A Transmissive Theory of Brain Function: Implications for Health, Disease, and Consciousness. NeuroSci, 3. https://www.mdpi.com/2673-4087/3/3/32 McCraty, R., et al. (2018). Long-term study of heart rate variability responses to changes in the solar and geomagnetic environment. https://tinyurl.com/254x3b9t Rouleau, N., & Persinger, M. A. (2016). Differential responsiveness of the right parahippocampal region to electrical stimulation in fixed human brains: Implications for historical surgical stimulation studies. Epilepsy & Behavior, 60181–186. https://tinyurl.com/uc5jbr Rajaram, M., & Mitra, S. (1981). Correlation between convulsive seizure and geomagnetic activity. Neuroscience Letters, 24, 187–191. https://tinyurl.com/3snrs4cs Chapters 0:00 Introduction 4:00 What Nic Rouleau would say to William James about his theory of transmissive consciousness 7:14 What do we know empirically about how electromagnetic fields influence our brains? 10:27 How scientifically rigorous are the empirical data on the influence of the Earth’s magnetic field on brains? 11:35 On Nic’s mentor, Dr. Michael Persinger, the inventor of the God Helmet 14:42 Research on post-mortem brain tissue 18:09 What mental states are influenced by magnetic fields? 18:58 Electromagnetic effects in dead vs. living brains 19:45 On Michael Levin and the paradigm shift due to bioelectricity 21:24 Influencing the thoughts of deceased people 25:33 Are biological forms stored in the Earth’s magnetic field? 30:21 Shielding brains from electromagnetic fields 33:12 Mind blindness: we only see 1% of the minds out there 38:55 What is the best way out of mind blindness? 41:06 Plant-based computation 42:00 The Self-Organizing Units Lab (SOUL) and what Nic is working on 43:23 Minds in a Petri dish 46:13 What counts as embodiment? 48:44 Phenomenal consciousness on different levels 53:06 What theories of consciousness can get us out of the behaviorist trap? 57:25 Nic’s award-winning essay on consciousness beyond death 1:00:55 Intermediary states of consciousness, the Bardo Thodol 1:04:46 Consciousness when the radio, the brain, is completely broken 1:06:35 Why exactly is electromagnetism a better explanation of consciousness beyond death than NDEs or OBEs? 1:11:58 How does the God Helmet work? 1:17:31 Which electromagnetic fields influence our consciousness and which ones don’t? 1:23:59 Can all of consciousness be stored in the Earth’s magnetic field? 1:27:08 Children with past-life memories: could electromagnetism play a role there? 1:29:51 How do quantum theories of consciousness relate to the work of Nic? 1:33:42 Do our brains connect electromagnetically with each other? 1:35:28 Nic on the hard problem of consciousness 1:38:00 Aren’t you just a materialist 2.0? 1:40:25 On the meaning of Nic’s work Copyright © 2026 Essentia Foundation. All rights on interview content reserved.
Personal website: https://www.rouleaulab.com/

Further reading and scientific references discussed in this video:

Rouleau’s BICS Essay: ‘An Immortal Stream of Consciousness: The scientific evidence for the survival of consciousness after permanent bodily death.’ https://www.bigelowinstitute.org/inde

Rouleau, N., Levin, M., et al. (2025) (Preprint; forthcoming in Philosophical Transactions of the Royal Society). Brains and Where Else? Mapping Theories of Consciousness to Unconventional Embodiments. https://tinyurl.com/439rrn8z.

Adobe Will Pay $75 Million to Settle Lawsuit over Its Subscriptions

“Adobe fails to adequately disclose to consumers that by signing up for the ‘Annual, Paid Monthly’ subscription plan, they are agreeing to a year-long commitment and a hefty early termination fee that can amount to hundreds of dollars,” the complaint read.

This lawsuit is finally closed, with Adobe agreeing to pay $75 million worth of services for free to the affected customers and an extra $75 million to the Department of Justice.

However, the company doesn’t agree with the accusations made against it.

Spin Supercurrents in Superconducting Altermagnets

Materials from a new class of magnets could host permanent dissipationless spin currents when they enter a superconducting state.

Superconductors are famous for transporting electric charge with zero resistance. This ability underpins technologies such as MRI scanners, quantum computers, and sensitive magnetometers known as superconducting quantum interference devices. However, in the field of spintronics—which seeks to process information using electron spin rather than charge—achieving a similar long-range dissipationless transport has remained elusive. In ordinary metals, electron spins are highly susceptible to scattering and spin-orbit coupling, both of which cause spin currents to decay over short distances. Although research in superconducting spintronics based on ferromagnets has made progress [1, 2], ferromagnets produce stray magnetic fields that interfere with external circuit elements, and their internal magnetic fields tend to destroy superconductivity.

Ryugu asteroid samples contain all DNA and RNA building blocks, bolstering origin-of-life theories

All the essential ingredients to make the DNA and RNA underpinning life on Earth have been discovered in samples collected from the asteroid Ryugu, scientists said Monday.

The discovery comes after these building blocks of life were detected on another asteroid called Bennu, suggesting they are abundant throughout the solar system.

One longstanding theory is that life first began on Earth when asteroids carrying fundamental elements crashed into our planet long ago.

Next-gen interferometric diffusing wave spectroscopy achieves 20x signal boost in cerebral blood flow monitoring

Cerebral blood flow is essential for normal brain function and often perturbed in neurological disease. If one shines a source of coherent light on perfused tissue, the detected speckles, or “grains” of light fluctuate, or “dance,” at a rate proportional to blood flow in the volume sampled by the light. In brain tissue, this concept can be harnessed to measure the cerebral blood flow index (CBFi).

However, to date, implementations of this principle for noninvasive adult human brain monitoring—collectively known as diffuse correlation spectroscopy (DCS)—have achieved limited brain sensitivity. This is because the brain is 1–2 centimeters deep beneath the scalp and skull, meaning that the light must sample the superficial tissue before reaching the brain.

While the collection points can be moved further from the source to address this issue by improving sampling of the brain, this strategy requires many photon-counting channels to detect highly attenuated light far from the source. DCS becomes prohibitively expensive as the number of channels increases.

A clear roadmap for engineering combs of light

Optical frequency combs—laser sources that emit evenly spaced colors of light—are foundational, ubiquitous tools for precision measurement, found in optical clocks, gas-sensing spectrometers, and instruments that detect the light signatures of exoplanets. Traditionally, frequency combs are produced by large, fiber-laser systems ranging from the size of a shoebox to a refrigerator.

Engineers at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) are at the forefront of shrinking these powerful laser sources onto photonic chips to make “microcombs” at millimeter to micron scales, useful not only for their smaller size, but in next-generation telecommunications applications, such as generating multiple data carriers over a single optical fiber.

New research led by Marko Lončar, the Tiantsai Lin Professor of Electrical Engineering and Applied Physics, describes a new, generalized model for how to design so-called resonant electro-optic microcombs on thin-film lithium niobate, a material featuring a strong electro-optic effect, or the ability to efficiently mix electronic signals with optical ones.

Laser-assisted electron scattering seen with circularly polarized light for the first time

Researchers from Tokyo Metropolitan University have succeeded in detecting laser-assisted electron scattering (LAES) using circularly polarized light for the first time. The use of circularly polarized light promises valuable insights into how atomic scale “helicity” impacts how electrons interact with matter and light.

Using synchronized femtosecond laser pulses and electron pulses directed at argon atoms, they succeeded in detecting a LAES signal showing excellent agreement with theory. The findings are published in The Journal of Chemical Physics.

LAES is a cutting-edge tool for understanding how electrons interact with matter under the influence of strong fields. When electrons are fired at atoms or molecules, they are scattered in all directions; the presence of strong light can change the way in which the scattering takes place due to an exchange of energy with the surrounding light field.

Not just spin—electron orbitals can provide new method for controlling magnetism

Research is actively underway to develop a “dream memory” that can reduce heat generation in smartphones and laptops while delivering faster performance and lower power consumption. Korean researchers propose a new possibility for controlling magnetism using the exchange interaction of electron orbitals—the motion of electrons orbiting around an atomic nucleus—rather than relying on the conventional exchange interaction of electron spin, the rotational property of electrons inside semiconductors.

A joint research team led by Professor Kyung-Jin Lee of the Department of Physics at KAIST and Professor Kyoung-Whan Kim of the Department of Physics at Yonsei University has established, for the first time in the world, a new theoretical framework enabling magnetism to be freely controlled through orbital exchange interaction, surpassing the limitations of conventional technologies that control magnetism using electric currents. The study is published in the journal Nature Communications.

Until now, next-generation memory research has mainly focused on the spin of electrons. Spin refers to the property of electrons that rotate on their own axis like tiny spinning tops, and information can be stored by using the direction of this rotation. However, electrons simultaneously move around the atomic nucleus along paths known as orbitals.

Could a recently detected ultra-high-energy neutrino be linked to new physics?

Neutrinos are extremely lightweight and electrically neutral particles that rarely interact with ordinary matter. Due to these rare interactions, neutrinos can travel across space almost entirely unaffected, carrying information about highly energetic cosmological events, such as exploding stars or supermassive black holes.

The KM3NeT neutrino telescope, an observatory located at the bottom of the Mediterranean Sea, recently detected the presence of a neutrino carrying extremely high energy, above 100 PeV (peta-electronvolts). This is one of the most energetic neutrinos observed to date.

Theoretical predictions suggested that another large-scale neutrino detector, namely the IceCube detector, would also observe similar high-energy neutrino events. However, this did not happen, which might potentially hint at some new physics, such as a new type of neutrinos or non-standard interactions, that are not included in the standard model of physics.

/* */