“Every living being is an engine geared to the wheelwork of the universe.” – Tesla

Adrian Marsh was originally trained in the 1980s as an electronic engineer specializing in RF, microwave, and solid state technologies. Early research projects included the practical design and implementation of a cryogenically cooled microwave linear amplifier for mm-wave astronomical applications, and practical research in the electromagnetic properties of the high-gain cross-field antenna. These early research projects included comprehensive training and experience in a wide range of measurement techniques using sophisticated equipment, including network and impedance analysis, RF power measurement, and time-domain reflectometry.
In the 1990s Adrian joined the Microelectronics Research Centre, at the Cavendish Laboratory, Cambridge University to firstly develop cryogenic integrated linear amplifiers for satellite and astronomical applications. This quickly gave way to a fascination in researching solid state quantum effect devices including, the quantum hall effect, ballistic coherent electron conduction, nano-scale charging, and most importantly the coherent conduction of electric super-current in superconductor-semiconductor junctions; the first steps to the development of superconducting, zero resistance, transistors. These research activities in collaboration with Hitachi, led to seminal research on the superconducting transistor, and a number of patents on the implementation and application of the superconductor-semiconductor junction to high-speed computing and communications.
In the late 1990s and into the new millennium decade Adrian researched, invented, and developed a number of medical devices, including the delta laser, a low level laser therapy device, which integrates coherently four different radiances: infra-red laser light, multi-colour led light, ultrasonics, and magnetics. Adrian was a founder member of the company Radiant Life Technologies Ltd which worked to patent, prototype, and manufacture the delta laser into a number of different successful commercial products.
In 1999 Adrian became interested in the new energy field, and in particular the work of Tesla, Eric Dollard, and Edwin Gray, which triggered the search for a deeper understanding of the underlying practical mechanisms of electricity, both scientific and esoteric. What followed was a fascinating journey of discovery as he sought to understand and replicate the research, demonstrations, and measurements of key experimenters in the field at the time.
In 2003 Adrian established his own self-funded, not-for-profit, research company called AMInnovations, whose primary research activity to date is in the “Displacement and Transference of Electric Power”. Research into displacement of electric power attempts to understand the underlying coherent mechanisms of electricity, which appear to stem from the inclusive and inter-dependent relationship between the electric and magnetic fields of induction, and their balance and equilibrium throughout the common medium. To date, a lot of as yet unreported research has been undertaken by Adrian and co-workers at AMInnovations, and this is progressively being released in the form of online posts and video experiments on his website. Displacement of electric power, and associated theories and principles, remain Adrian’s primary research interest and work in progress.

PRESENTATION: ADVANCED MEASUREMENT TECHNIQUES FOR TESLA COILS – DEMONSTRATION INCLUDED – Building, operating, and optimising a working Tesla magnifying transmitter (TMT) power transmission system for the maximum transfer of electric power with minimum loss, requires detailed measurement, tuning, and accurate generator and load matching. Measurement of such a TMT system in the frequency domain, using affordable yet sophisticated equipment such as a vector network analyser, can reveal a wealth of important experimental data. Properly interpreted, this data can show how best to operate and tune the system, as well as revealing a deeper understanding of how these fascinating electrical systems work.
Network analysis is a vast and complex subject which has classically involved considerable training, an established background in electrical engineering, combined with very expensive equipment. The purpose of this presentation is to introduce this advanced measurement technique in a simple and practical fashion with equipment affordable to the individual researcher, experimenter, or inventor.
The presentation, which includes a practical demonstration, is intended to lead the participant through the steps necessary to gain a working understanding of using a vector network analyser, and to characterise the small signal impedance characteristics with frequency for a Tesla coil, and hence for a complete working TMT system. The presentation and demonstration includes:

  1. An introduction to the basic principles of network analysis.
  2. An introduction to the basic properties of Tesla coils, including resonance, coupling, tuning, and matching generators and loads.
  3. Taking a look at equipment suited to this measurement technique both at the high-end, and the affordable end, with a comparison of the range of measurements available from both, and the likely accuracy and limitations which they present.
  4. How to calibrate, setup, and prepare a network analyser to measure a Tesla coil.
  5. How to make impedance measurements over a frequency band, and interpret the meaning of the measured results.
  6. Impedance measurement comparison under different operating conditions, including the effects of coupling, primary and secondary coil tuning, and loading.
  7. How to identify the best points of operation from the measurements, and then optimise the system for the maximum transference of electric power.
  8. How to match a generator to a Tesla coil using the measured impedance characteristics.
  9. A live measurement demonstration using the complete transmitter coil from a working TMT system, and connected to a portable and affordable vector network analyser.

Eric Dollard is an Electrical Engineer who is a “living legend” in the field of electrical research. He is considered by many to be the most knowledgeable expert alive today on the true nature of electricity. Author of the landmark mathematical papers Symbolic Representation of Alternating Electric Waves and Symbolic Representation of the Generalized Electric Wave, Eric shows how all electric phenomena can be mathematically measured and engineered WITHOUT using calculus or “Maxwell’s Equations.” Author of Condensed Intro to Tesla Transformers and Theory of Wireless Power, he is also the only person since Tesla’s death to successfully build a real Magnifying Transmitter. His last several conference presentations are Four Quadrant Representation of Electricity, The Extraluminal Transmission Systems of Tesla & Alexanderson & The Power of the Aether as Related to Music and Electricity, The Musical Seismograph. & History, Theory & Practice of the Electrical Utility System. Last year, he gave a presentation on Nikola Tesla’s Colorado Springs Transformer and demonstrated a 20:1 scale model – this was THE definitive presentation ever given on the subject.

PRESENTATION: FORTESCUE PART 2 – DELTA & WYE ELECTRIC POWER CONFIGURATIONS – This is an extension of last year’s (2020) Fortescue presentation. Last year’s presentation is now being applied to the analysis of Delta to Wye and Wye to Delta transformations in 3-Phase power systems. The representations that are commonly taught in engineering curriculums will be found to be in error. Also, to be presented will be the undesirability of the Wye connected power system, which is finding wide-spread use.

PRESENTATION – THE BORDERLAND OF NIKOLA TESLA’S RESONANT TRANSFORMER – This is a very complex project with an audio rack and RF rack. They can be used independently or together for a variety of different experiments. We do not know how much we can demonstrate but we will do as much as possible with the time we have. We plan to show a large high fidelity flame speaker and will try to demonstrate the CIG plasma formations in a bulb. There are some ground transmission experiments we may attempt but depends on what we can finish in time for the conference. We’ll bring the equipment to the conference to show the setup up close and whatever we do not finish for the conference, we’ll continue to complete the project and will demonstrate it on video. We will probably invite anyone that wants to come for later demonstrations in the Spokane and CDA area. More videos and pics of our progress will be posted on an ongoing basis. THIS IS THE STATE OF THE ART as far as Eric Dollard’s knowledge is concerned. This project will have the consideration of everything Eric knows about this kind of technology.

GRIFFIN BROCK – PRESENTATION 1: TESLA HIGH FREQUENCY ILLUMINATION METHODS AND APPARATUSES & PRESENTATION 2: PRACTICAL METHODS OF ELECTROSTATIC STIMULATION UPON ORGANIC GROWTH (60min + 90min)
Griffin Brock is an experimenter, mathematician, and engineer in the field of “true” electrical science. He investigates the works of major electrical pioneers of the 20th Century, and applies them to practical applications. He has produced multiple reproductions of Tesla’s wireless telluric communication systems, as well as other forms of his work. He is credited for forming a simplistic Electrodynamic Seismic Forecasting system. He is currently enrolled in high school, and continues to pursue the field of electrical engineering.

PRESENTATION 1: TESLA HIGH FREQUENCY ILLUMINATION METHODS AND APPARATUSES & PRESENTATION – A developed explanation on the practicality of high frequency high potential illumination devices, as originally developed by Tesla. This includes the employment of various high potential driving apparatuses, and the construction of illuminating devices with peculiar phenomena.

PRESENTATION 2: PRACTICAL METHODS OF ELECTROSTATIC STIMULATION UPON ORGANIC GROWTH – An experimentally based approach to inducing significant growth qualities of organic matter, when introduced to natural and or artificial electrostatic potentials. Such methods take advantage of certain geometries and potentials possessing fast alternations to achieve outstanding effects on organic growth outcomes.
Photos courtesy https://energyscienceconference.com/2021-speakers/