don.mitchell
- Jun 1, 2023
- 6
- Joined
- Jun 1, 2023
- Messages
- 6
Nuclear magnetic resonance is a tangible thing that affects the inductive quality of a resonant antenna element, should the antenna be fabricated to resonate at its own natural NMR frequency.
This project design principle needs developed, and that's why I'm here. Call me clueless at building modern electronics at my age (retired).
This project design bonds the NMR samples (bismuth, as a 9/2 nuclear spin, is quite sensitive to external flux fields) against copper resonators. The bismuth will load the circuit when it begins to resonate as driving magnetic pulse frequencies from the resonator antenna match nuclear oscillation periods.
This design places the NMR-sensitive antenna resonators in a group-array, and the group elements are driven by each the other in a ring fashion. A ring oscillator is asynchronous and accumulates timing error. The NMR load nearing resonance will influence the ring frequency, causing a drift that tracks the NMR. Finding this NMR influence even while that artifact within the amplifier is yet buried within the oscillator noise is the project mission.
Category theory learned in a DARPA funding competition will be used to isolate the NMR artifact toward amplification of the artifact to macro levels. A basic quantum field emergence is anticipated if this 'instrument' will enable development of this 'nuclear sonogram' for lack of better terms. (I'm sure academia will have better terms --AI involvement will help, retired professors --this is a source of dopamine inducing discovery.)
NodeMCU based telemetry will enable the experiment to proceed at a safe distance.
Experienced and/or curious discussion invited --toward smarter development
Cheers n thanx!
This project design principle needs developed, and that's why I'm here. Call me clueless at building modern electronics at my age (retired).
This project design bonds the NMR samples (bismuth, as a 9/2 nuclear spin, is quite sensitive to external flux fields) against copper resonators. The bismuth will load the circuit when it begins to resonate as driving magnetic pulse frequencies from the resonator antenna match nuclear oscillation periods.
This design places the NMR-sensitive antenna resonators in a group-array, and the group elements are driven by each the other in a ring fashion. A ring oscillator is asynchronous and accumulates timing error. The NMR load nearing resonance will influence the ring frequency, causing a drift that tracks the NMR. Finding this NMR influence even while that artifact within the amplifier is yet buried within the oscillator noise is the project mission.
Category theory learned in a DARPA funding competition will be used to isolate the NMR artifact toward amplification of the artifact to macro levels. A basic quantum field emergence is anticipated if this 'instrument' will enable development of this 'nuclear sonogram' for lack of better terms. (I'm sure academia will have better terms --AI involvement will help, retired professors --this is a source of dopamine inducing discovery.)
NodeMCU based telemetry will enable the experiment to proceed at a safe distance.
Experienced and/or curious discussion invited --toward smarter development
Cheers n thanx!
