Podcast thumbnail for Entangled Health

Entangled Health

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by Thomas Ehmer

27 episodes
Updated Daily
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41

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Podcast Overview

Entangled Health is a long-form interview podcast exploring quantum biology, quantum computing, consciousness research, biofield science, and the future of medicine. Hosted by physicist and biophysicist Thomas Ehmer, the show features in-depth conversations with quantum biologists, quantum computing researchers, biofield scientists, consciousness researchers, and physicians — including guests such as Shamini Jain, Clarice Aiello, Neil Theise, and Dean Radin. Unlike panel discussions or short-format science shows, each episode runs 90 to 120 minutes and stays inside unresolved, technical questions rather than simplifying them into soundbites. Recurring topics include quantum magnetic sensing in cells, quantum computing for drug discovery, biofield science and physiological coherence, consciousness and the hard problem, and AI at the frontier of health research. Each episode features the Entangled Health Question Pool, where listener questions are selected by a real quantum algorithm running on live quantum hardware. Submit a question via LinkedIn or Substack at thomasehmer1.substack.com. Entangled Health is intended for scientists, clinicians, researchers, and curious listeners who find open questions more interesting than easy answers. All conversations reflect personal views of the host and guests, not official positions of any employer or organization.

Language

🇺🇲

Publishing Since

6/2/2025

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41

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Recent Episodes

Episode thumbnail for When a Quantum Forecaster Meets the Unknown | Lawrence Gasman

May 22, 2026

When a Quantum Forecaster Meets the Unknown | Lawrence Gasman

<p><br>Lawrence Gasman has spent decades tracking the commercial reality of new technologies across networking, photonics, AI, and quantum. But what happens when the world you are paid to model no longer feels like the whole world?</p><p>In this episode, we start with the medium-term commercial applications of quantum AI and quantum robotics. From there, the conversation slips into the unexpected. We trace Lawrence’s early encounters with the students of Alan Turing and the philosophy of Gödel, before moving into the raw phenomenology of his own out-of-body experiences and hospital-induced altered states.</p><p>It is a conversation about holding the tension between a highly rigorous economic lens and the deeply unsettling realization that reality, intelligence, and consciousness are far fuzzier than our categories suggest. We live inside the contradiction, looking at the limits of artificial intelligence, the measurement problem, and the philosophical legacy of Brian Josephson.</p><p><strong><br>In this episode, we explore:</strong></p><ul><li>The commercial trajectory of quantum AI and robotics</li><li>Turing, Gödel, and the legacy of philosophy in mathematics</li><li>How out-of-body experiences challenge a materialist worldview</li><li>The intersection of quantum mechanics, biology, and consciousness (the Josephson influence)</li><li>Why current LLMs lack the existential grounding of embodied consciousness<p></p></li></ul><p><strong>Chapter Markers:</strong><br>00:00 – Cold Open: An Out-of-Body Experience<br>01:02 – Host Intro: The Commercial vs. The Unknown<br>03:50 – The Commercial Reality of Quantum AI and Robotics<br>09:50 – Manchester, Alan Turing, and Gödel's Theorem<br>16:03 – Anomalous Experiences and Fuzzy Reality<br>30:19 – Brian Josephson, Collapse, and Biology<br>40:53 – Subjective Realization and Shifting Frequencies<br>01:08:48 – ChatGPT, Embodiment, and the Physics of Information<br>01:12:17 – Closing Thoughts</p><p><br><strong>Host &amp; Guests</strong> </p><ul> <li><a href="https://entangled-health.transistor.fm/people/thomas-ehmer">Thomas Ehmer</a> - Host</li> <li><a href="https://entangled-health.transistor.fm/people/lawrence-gasman">Lawrence Gasman</a> - Guest</li> </ul><br><a href="https://www.youtube.com/watch?v=c5DCMR0PIdI" title="Click here to watch a video of this episode.">Click here to watch a video of this episode.</a><br> <br><br>We don't simplify for comfort. We entangle.<br>Submit your questions or propose a guest in the comments, or join the discussion on Substack: https://thomasehmer1.substack.com/<br>If you like it — thanks for subscribing and leaving a thumbs up wherever you listen 👍<p><strong>Disclaimer:</strong><br>The views, thoughts, and opinions expressed in this episode are those of the host and guest speaking in their personal capacities and do not necessarily reflect the official policy or position of their respective employers, organizations, committees (including IEEE), or companies.<br><br></p><p><strong>Medical Disclaimer:</strong><br>This podcast is for informational and educational purposes only. The discussion regarding drug use during a bypass operation as a subjective experience. Nothing in this episode should be taken as a recommendation to alter medication or treatment plans. Always seek the advice of your physician or qualified health provider with any questions you may have regarding a medical condition.<br><br></p>

Episode thumbnail for What the Electron Knows: Laís Lopes on Quantum Sensing, Blood, and the Coherence Bet

April 24, 2026

What the Electron Knows: Laís Lopes on Quantum Sensing, Blood, and the Coherence Bet

<p><br>Laís Lopes is an electrochemist, graphene specialist, and co-founder and CTO of Qnity, a Brazilian deep-tech startup building a new kind of molecular sensor, one that reads binding events directly at the electron level, in real blood and plasma, without fluorescent labels or amplification steps.</p><p>In this conversation, we follow her path from hydrogels to graphene to quantum electrochemistry, and into the lab on a night in 2020 when she took real COVID samples, ran them through her graphene sensor, and couldn't sleep afterwards.</p><p>We talk about what it means to detect a molecule at attomolar concentrations, roughly one grain of sugar dissolved in an Olympic pool, and why that sensitivity changes what's possible in diagnostics and drug discovery. Laís's team has already demonstrated detection of an Alzheimer's biomarker in blood plasma, head and neck cancer DNA, and dengue and COVID in real clinical samples. Their next step: a multiplexed microfluidic platform for measuring binding affinity in drug discovery pipelines, where small molecules and fragments currently fall below the noise floor of existing tools.</p><p>And at the edge of all of it: a question neither of us could fully answer. If electron-level coherence is what makes this sensing possible — does that same coherence scale upward through biology? Is health, at some level, a coherence problem too?</p><p>Laís says she doesn't know. I think that's the most honest and interesting place to leave it.</p><p><strong>Topics covered:</strong></p><ul><li>Quantum capacitance vs. geometric capacitance — and why the distinction matters for sensing</li><li>Graphene, peptides, gold interfaces, and impedance spectroscopy</li><li>Detecting Alzheimer's biomarkers in blood plasma without lumbar puncture</li><li>Why small molecules fall into noise in standard drug discovery assays — and how quantum electrochemistry sidesteps that</li><li>Building Qniti: from academic IP to venture-backed deep tech</li><li>The coherence bet: electrons, biology, and the question Thomas can't stop asking<p></p></li></ul><p><strong>Host &amp; Guests</strong> </p><ul> <li><a href="https://entangled-health.transistor.fm/people/thomas-ehmer">Thomas Ehmer</a> - Host</li> </ul><br><a href="https://www.youtube.com/watch?v=q1tVuu5NXog" title="Click here to watch a video of this episode.">Click here to watch a video of this episode.</a><br> <br><br>We don't simplify for comfort. We entangle.<br>Submit your questions or propose a guest in the comments, or join the discussion on Substack: https://thomasehmer1.substack.com/<br>If you like it — thanks for subscribing and leaving a thumbs up wherever you listen 👍<p><strong>Disclaimer:</strong><br>The views, thoughts, and opinions expressed in this episode are those of the host and guest speaking in their personal capacities and do not necessarily reflect the official policy or position of their respective employers, organizations, committees (including IEEE), or companies.<br><br></p><p><strong>Medical Disclaimer:</strong><br>This podcast is for informational and educational purposes only. The discussion regarding lithium isotopes, biology, and mental health is based on theoretical quantum chemistry and physics, not clinical medical advice. Nothing in this episode should be taken as a recommendation to alter medication or treatment plans. Always seek the advice of your physician or qualified health provider with any questions you may have regarding a medical condition.<br><br></p>

Episode thumbnail for Entangled Health Experiments | Episode: From Classical Echoes to Quantum Dynamics

April 3, 2026

Entangled Health Experiments | Episode: From Classical Echoes to Quantum Dynamics

<p>Quantum reservoir computing, classical echo state networks, and the future of AI in healthcare — explored in this Entangled Health Experiments episode. We trace the path from biological time series (ECG, EEG, glucose, voice) through reservoir computing, NG-RC, and quantum dynamics, asking whether intelligence is something we build or something matter already does. Part of the Entangled Health Experiments mini-series, with a companion six-part Substack series.</p><p>This episode is part of <strong>Entangled Health Experiments</strong> — a special mini-series where we deliberately stress-test ideas in public with tools like Perplexity and NotebookLM as thinking partners. No polished keynote, no finished answers, just live exploration of hard questions at the intersection of quantum science, computation, and health.</p><p>In this session, we follow one of the most underappreciated threads in computational medicine: <strong>reservoir computing</strong> from its classical origins to its quantum frontier and end on a question that refuses to go away: if a bucket of water, an optical fibre loop, a neuromorphic chip, or a handful of quantum spins can process information and remember the past, are we building intelligence, or just learning how to tap into something matter already does?</p><p>Read more on substack 6-Part Article: https://thomasehmer1.substack.com/p/i-built-something-here-is-what-it</p><p><strong>What we cover:<br>Why biological time series are so hard.</strong> ECG, EEG, continuous glucose monitoring, voice, multi-omics — they are nonstationary, multiscale, noisy, and label-poor. Standard deep learning architectures (LSTM, Transformer) were not designed for this regime.</p><p><strong>Reservoir computing as an alternative.</strong> Echo state networks, liquid state machines, and next-generation reservoir computing (NG-RC) separate dynamics from learning: fix the reservoir, train only a linear readout. Fast, small-data-friendly, interpretable.<br><strong>Quantum reservoir computing (QRC).</strong> What the exponential Hilbert space actually buys you — and where the encoding bottleneck and dissipation requirement quietly constrain it. Seven qubits matching hundreds of classical neurons is real. But the "2ⁿ" story requires careful unpacking.<br><strong>The dissipation paradox.</strong> Why today's noisy NISQ hardware is sometimes structurally better for reservoir computing than tomorrow's fault-tolerant machines — and what that means for the hardware road</p><p><br>Tools used in this experiment:<br>Guests are "Sheela and Himbert, the famous voices form NotebookLM - as I did not find names anywhere, I named them.<br>Content prepared and fed to Sheela and Himbert by perplexity.ai<br>Sheela and Himbert generated via notebooklm.google.com<br>Mixed with Logic on Mac.</p><p><br><strong>Host &amp; Guests</strong> </p><ul> <li><a href="https://entangled-health.transistor.fm/people/thomas-ehmer">Thomas Ehmer</a> - Host</li> </ul><br><br>We don't simplify for comfort. We entangle.<br>Submit your questions or propose a guest in the comments, or join the discussion on Substack: https://thomasehmer1.substack.com/<br>If you like it — thanks for subscribing and leaving a thumbs up wherever you listen 👍<br>

27 total episodes available

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Frequently asked questions

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What is Entangled Health?

Entangled Health is a long-form interview podcast exploring quantum biology, quantum computing, consciousness research, biofield science, and the future of medicine. Hosted by physicist and biophysicist Thomas Ehmer, the show features in-depth conversations with quantum biologists, quantum computing researchers, biofield scientists, consciousness researchers, and physicians — including guests such as Shamini Jain, Clarice Aiello, Neil Theise, and Dean Radin.

Unlike panel discussions or short-format science shows, each episode runs 90 to 120 minutes and stays inside unresolved, technical questions rather than simplifying them into soundbites. Recurring topics include quantum magnetic sensing in cells, quantum computing for drug discovery, biofield science and physiological coherence, consciousness and the hard problem, and AI at the frontier of health research.

Each episode features the Entangled Health Question Pool, where listener questions are selected by a real quantum algorithm running on live quantum hardware. Submit a question via LinkedIn or Substack at thomasehmer1.substack.com.

Entangled Health is intended for scientists, clinicians, researchers, and curious listeners who find open questions more interesting than easy answers. All conversations reflect personal views of the host and guests, not official positions of any employer or organization.

How often does this podcast release new episodes?

This podcast updates daily.

Where can I listen to this podcast?

This podcast is available on 4 platforms including Apple Podcasts, Spotify, and more. You can also use the RSS feed directly.

Does this podcast accept guests?

Yes, this podcast regularly features guests.

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