The Field (37 page)

It occurred to him that if you don’t need the molecule itself, but only its signal, then you don’t need to take drugs, do biopsies or test for toxic substances or pathogens such as parasites and bacteria with physical sampling. As he’d already shown in one study, you could use frequency signaling to detect the bacteria
E. coli
.
¹⁴
It’s known that latex particles sensitized to a certain antibody will cluster in the presence of
E. coli
K1. By recording the signal for
E. coli
, another bacteria and also control substances, and then applying them to the latex particles, Benveniste found that the
E. coli
produced the largest clusters of any of the frequencies. Before long, his team’s record for detecting the
E. coli
signal became virtually perfect.

Using digital recording, we could uncover those pathogens like prions, which have no reliable means of detection, and no longer waste precious laboratory resources in determining whether antigens are present in the body and whether the body has mounted antibodies to them. It also may mean that when we are ill, we may not need to take drugs. We could get rid of unwanted parasites or bacteria just by playing an unfriendly frequency. We could use electromagnetic means of detecting dangerous microorganisms in our agriculture or use them to find out whether foods have been genetically modified. If we could come up with the right frequencies, we wouldn’t have to use dangerous pesticides but could just kill bugs with electromagnetic signals. You wouldn’t even have to do all this detection work in person. Virtually all the test samples could be emailed and carried out remotely.

In America, the AND Corporation, a company with offices in New York, Toronto and Copenhagen, was working away at artificial intelligence based upon the ideas of Karl Pribram and Walter Schempp about how the brain works. Its proprietary system, called Holographic Neural Technology (Hnet), for which it now has a worldwide patent, used principles of holography and wave encoding for computers to learn tens of thousands of stimulus-response memories in less than a minute and to respond to tens of thousands of these patterns in less than a second. In AND’s view, its system was an artificial replica of how the brain works. Single neuron cells with just a few synapses were capable of learning memories instantly. Millions of these memories could be superimposed. The model demonstrates how these cells can memorize abstraction – a concept, say, or a human face. AND had ambitious plans for its technology. It was planning to set up Strategic Business Units, in different specialties, which, if developed properly, might transform the information processing of virtually any industry.

Fritz-Albert Popp and his team of IIB scientists were beginning to test biophoton-emission detection as a means of determining whether food was fresh. His experiments and the theoretical approach behind them were gaining acceptance among the scientific community.

Dean Radin put some of his studies up on the Internet for visitors to participate in, and engaged in giant computerized experiments. Braud and Targ carried on with more studies of human intention and healing. Brenda Dunne and Bob Jahn carried on adding to their mountain of data. Roger Nelson, with his Global Project, continued to measure small tremors on the collective cosmic seismograph.

Edgar Mitchell presented the keynote address of CASYS 1999, an annual mathematical conference in Liège, Belgium, sponsored by the Society for the Study of Anticipatory Systems, which incorporated his synthesis of theories of quantum holography and human consciousness. The discovery of the presence of quantum resonance in living things and the ability of the Zero Point Field to encode information and provide instantaneous communication represented no less than the Rosetta Stone of human consciousness, he said.
¹⁵
All the different strands he’d been investigating for thirty years were finally beginning to come together.

At that same conference, he and Pribram were honored together for their exploration of outer space and inner space – Pribram for his scientific work on the holographic brain, and Mitchell for outstanding scientific work on noetic sciences. That same year, Pribram received the Dagmar and Václav Havel prize for bringing together the sciences and humanities.

Hal Puthoff sat on the unofficial subcommittee of NASA’s Breakthrough Propulsion Program: the Advanced Deep Space Transport (ADST) Group – a group of people, he said, who are on the ‘frontier of the frontier’.
¹⁶

In his capacity as director of the Institute for Advanced Studies, Hal operated as a clearinghouse for inventors or companies who think they’ve developed a gadget of any sort that taps into the Zero Point Field. Hal would put each one to the ultimate test – it must show that more energy is coming out of the gadget than going in. Thus far, every one of the thirty devices tested by him has failed. But he is still optimistic, as only a frontier scientist can be.
¹⁷

In terms of the real import of their discoveries these practical uses represented only a bit of technological froth. All of them – Robert Jahn and Hal Puthoff, Fritz-Albert Popp and Karl Pribram – were philosophers as well as scientists, and on rare occasions when they weren’t busy pressing on with their experimentation, it had occurred to them that they had dug deep and come up with something profound – possibly even a new science. They had the beginnings of an answer to much of what had remained missing in quantum physics. Peter Milonni at Los Alamos’s NASA facilities had speculated that if the fathers of quantum theory had used classical physics with the Zero Point Field, the scientific community would have been far more satisfied with the result than they were by the many unanswerables of quantum physics.
¹⁸
There are those who believe quantum theory will one day be replaced by a modified classical theory which takes into account the Zero Point Field. The work of these scientists may take the word ‘quantum’ out of quantum physics and create a unified physics of the world, large and small.

Each scientist had taken his own incredible voyage of discovery. As young scientists with promising credentials, each had begun his career holding certain tenets sacred – the ideas and received wisdom of their peers:

The human being is a survival machine largely powered by chemicals and genetic coding.

The brain is a discrete organ and the home of consciousness, which is also largely driven by chemistry – the communication of cells and the coding of DNA.

Man is essentially isolated from his world, and his mind is isolated from his body.

Time and space are finite, universal orders.

Nothing travels faster than the speed of light.

Each of them had chanced upon an anomaly in this thinking and had the courage and the independence to pursue that line of inquiry. One by one, through painstaking experiment and trial and error, each had eventually come to the position that every one of these tenets – bedrocks of physics and biology – were probably wrong:

The communication of the world did not occur in the visible realm of Newton, but in the subatomic world of Werner Heisenberg.

Cells and DNA communicated through frequencies.

The brain perceived and made its own record of the world in pulsating waves.

A substructure underpins the universe that is essentially a recording medium of everything, providing a means for everything to communicate with everything else.

People are indivisible from their environment. Living consciousness is not an isolated entity. It increases order in the rest of the world.

The consciousness of human beings has incredible powers, to heal ourselves, to heal the world – in a sense, to make it as we wish it to be.

Every day in their laboratories, these scientists caught a tiny glimmer of the possibilities suggested by their discoveries. They’d found that we were something far more impressive than evolutionary happenstance or genetic survival machines. Their work suggested a decentralized but unified intelligence that was far grander and more exquisite than Darwin or Newton had imagined, a process that was not random or chaotic, but intelligent and purposeful. They’d discovered that in the dynamic flow of life, order triumphed.

These are discoveries that may change the lives of future generations in many practical ways, in fuel-less travel and instant levitation; but in terms of understanding the furthest reaches of human potential, their work suggested something far more profound. In the past, individuals had accidentally evidenced some ability – a premonition, a ‘past life’, a clairvoyant image, a gift for healing – which quickly was dismissed as a freak of nature or a confidence trick. The work of these scientists suggested that this was a capacity neither abnormal nor rare, but present in every human being. Their work hinted at human abilities beyond what we’d ever dreamed possible. We were far more than we realized. If we could understand this potential scientifically, we might then learn how to systematically tap into it. This would vastly improve every area of our lives, from communication and self-knowledge to our interaction with our material world. Science would no longer reduce us to our lowest common denominator. It would help us take a final evolutionary step in our own history by at last understanding ourselves in all of our potential.

These experiments had helped to validate alternative medicine, which has been shown to work empirically but has never been understood. If we could finally work out the science of medicine that treats human energy levels and the exact nature of the ‘energy’ that was being treated, the possibilities for improved health were unimaginable.

These were also discoveries which scientifically verified the ancient wisdom and folklore of traditional cultures. Their theories offered scientific validation of many of the myths and religions humans have believed in since the beginning of time, but have hitherto only had faith to rely on. All they’d done was to provide a scientific framework for what the wisest among us already knew.

Traditional Australian Aborigines believe, as do many other ‘primitive’ cultures, that rocks, stones and mountains are alive and that we ‘sing’ the world into being – that we are creating as we name things. The discoveries of Braud and Jahn showed that this was more than superstition. It was just as the Achuar and the Huaorani Indians believe. On our deepest level, we do share our dreams.

The coming scientific revolution heralded the end of dualism in every sense. Far from destroying God, science for the first time was proving His existence – by demonstrating that a higher, collective consciousness was out there. There need no longer be two truths, the truth of science and the truth of religion. There could be one unified vision of the world.

This revolution in scientific thinking also promised to give us back a sense of optimism, something that has been stripped out of our sense of ourselves with the arid vision of twentieth-century philosophy, largely derived from the views espoused by science. We were not isolated beings living our desperate lives on a lonely planet in an indifferent universe. We never were alone. We were always part of a larger whole. We were and always had been at the center of things. Things did not fall apart. The center did hold and it was we who were doing the holding.

We had far more power than we realized, to heal ourselves, our loved ones, even our communities. Each of us had the ability – and together a great collective power – to improve our lot in life. Our life, in every sense, was in our hands. These were bold insights and discoveries but very few had heard them. For thirty years, these pioneers had presented their findings at small mathematical conferences or the annual meetings of tiny scientific bodies created to promote a dialogue on frontier science. They knew and admired each other’s work and were acknowledged at these small gatherings of their peers. Most of the scientists had been young men when they made their discoveries, and before they embarked on what turned out to be lifelong detours they had been highly respected, even revered. Now they were approaching retirement age, and among the wider scientific community most of their work still had never seen the light of day. They were all Christopher Columbus and nobody believed what they’d returned to tell. The bulk of the scientific community ignored them, continuing to grip tightly to the notion that the earth was flat.

The space-propulsion activities had been the only acceptable face of the Zero Point Field. Despite their rigorous scientific protocols, nobody in the orthodox community was taking any other discoveries of theirs seriously. Some, like Benveniste, had merely been marginalized. For many years, Edgar Mitchell, now 71, depended on lectures about his exploits in outer space to fund his research into consciousness. Every so often Robert Jahn would submit a paper with unimpeachable statistical evidence to an engineering journal, and they would dismiss it out of hand. Not for the science, but for its shattering implications about the current scientific world view.

Nevertheless, Jahn and Puthoff and the other scientists all knew what they had. Each carried on with the stubborn blinkered confidence of the true inventor. The old way was simply one more hot-air balloon. Resistance was the way it had always been in science. New ideas were always considered heretical. Their evidence might well change the world forever. There were many areas to be refined, other paths to go down. Many might turn out to be detours or even dead ends, but the first tentative inquiries had been made. It was a start, a first step, the way all real science started.