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Consciousness and Cosmos: Science Discovers Mind in Nature
As modern physicists refined their explorations of the very small and the very large—the subatomic realms of the microworld and the astrophysical realms of the macroworld—they soon realized that some of the basic Newtonian principles had serious limits and flaws. In the mid-twentieth century, the atoms that Newtonian physics once defined as the indestructible, most elementary building blocks of the material world were found to be made of even smaller and more elementary parts—protons, neutrons, and electrons. Later research detected literally hundreds of subatomic particles.
  The newly discovered subatomic particles exhibited strange behavior that challenged Newtonian principles. In some experiments they behaved as if they were material entities; in other experiments they appeared to have wavelike properties. This became known as the "wave-particle paradox." On a subatomic level, our old definitions of matter were replaced by statistical probabilities that described its "tendency to exist," and ultimately the old definitions of matter disappeared into what the physicists call "dynamic vacuum." The exploration of the microworld soon revealed that the universe of everyday life, which appears to us to be composed of solid, discrete objects, is actually a complex web of unified events and relationships. Within this new context, consciousness does not just passively reflect the objective material world; it plays an active role in creating reality itself.
  The scientists' explorations of the astrophysical realm is responsible for equally startling revelations. In Einstein's theory of relativity, for example, space is not three-dimensional, time is not linear, and space and time are not separate entities. Rather, they are integrated into a four-dimensional continuum known as "space-time." Within this perspective of the universe, what we once perceived as the boundaries between objects and the distinctions between matter and empty space are now replaced by something new. Instead of there being discrete objects and empty spaces between them the entire universe is seen as one continuous field of varying density. In modern physics matter becomes interchangeable with energy. Within this new worldview, consciousness is seen as an integral part of the universal fabric, certainly not limited to the activities contained inside our skulls. As British astronomer James Jeans said some sixty years ago, the universe of the modern physicist looks far more like a great thought than like a giant super-machine.
  So we now have a universe that is an infinitely complex system of vibratory phenomena rather than an agglomerate of Newtonian objects. These vibratory systems have properties and possibilities undreamed of in Newtonian science. One of the most interesting of these is described in terms of holography.
Holography and the Implicate Order

Holography is a photographic process that uses laser-coherent light of the same wave-length to produce three-dimensional images in space. A hologram—which might be compared to a photographic slide from which we project a picture—is a record of an interference pattern of two halves of a laser beam. After a beam of light is split by a partially silvered mirror, half of it (called the reference beam) is directed to the emulsion of the hologram; the other half (called the working beam) is reflected to the film from the object being photographed. Information from these two beams, required for reproducing a three-dimensional image, is "enfolded" in the hologram in such a way that it is distributed throughout. As a result, when the hologram is illuminated by the laser, the complete three-dimensional image can be "unfolded" from any fraction of the hologram. We can cut the hologram into many pieces and each part will still be capable of reproducing an image of the whole.

Figure 1. A hologram is produced when a single laser light is split into two separate beams. The first beam is bounced off the object to be photographed, in this case an apple. Then the second beam is allowed to collide with the reflected light of the first, and the resulting interference pattern is recorded on film.

The discovery of the holographic principles has become an important part of the scientific worldview. For example, David Bohm, a prominent theoretical physicist and former coworker of Einstein's, was inspired by holography to create a model of the universe that could incorporate the many paradoxes of quantum physics. He suggests that the world we perceive through our senses and nervous systems, with or without the help of scientific instruments, represents only a tiny fragment of reality. He calls what we perceive the "unfolded" or "explicate order." These perceptions have emerged as special forms from a much larger matrix. He calls the latter the "enfolded" or "implicate order." In other words, that which we perceive as reality is like a projected holographic image. The larger matrix from which that image is projected can be compared to the hologram. However, Bohm's picture of the implicate order (analogous to the hologram) describes a level of reality that is not accessible to our senses or direct scientific scrutiny.

Figure 2. Unlike normal photographs, every portion of a piece of holographic film contains all the information of the whole. Thus if a holographic plate is broken into fragments, each piece can still be used to reconstruct the entire image.
  In his book
Wholeness and the Implicate Order,
Bohm devotes two chapters to the relationship between consciousness and matter as seen through the eyes of the modern physicist. He describes reality as an unbroken, coherent whole that is involved in an unending process of change—called
holomove
ment.
Within this perspective all stable structures in the universe are nothing but abstractions. We might invest all kinds of effort in describing objects, entities, or events but we must ultimately concede that they are all derived from an indefinable and unknowable whole. In this world where everything is in flux, always moving, the use of nouns to describe what is happening can only mislead us.
  For Bohm, holographic theory illustrates his idea that energy, light, and matter are composed of interference patterns that carry information about all of the other waves of light, energy, and matter that they have directly or indirectly contacted. Thus, each part of energy and matter represents a microcosm that enfolds the whole. Life can no longer be understood in terms of inanimate matter. Matter and life are both abstractions that have been extracted from the holomovement, that is, the undivided whole, but neither can be separated from that whole. Similarly, matter and consciousness are both aspects of the same undivided whole.
  Bohm reminds us that even the process of abstraction, by which we create our illusions of separation from the whole, are themselves expressions of the holomovement. We ultimately come to the realization that all perceptions and knowledge—including scientific work—are not objective reconstructions of reality; instead, they are creative activities comparable to artistic expressions. We cannot measure true reality; in fact, the very essence of reality is its immeasurability.
  The holographic model offers revolutionary possibilities for a new understanding of the relationships between the parts and the whole. No longer confined to the limited logic of traditional thought, the part ceases to be just a fragment of the whole but, under certain circumstances, reflects and contains the whole. As individual human beings we are not isolated and insignificant Newtonian entities; rather, as integral fields of the holomovement each of us is also a microcosm that reflects and contains the macrocosm. If this is true, then we each hold the potential for having direct and immediate experiential access to virtually every aspect of the universe, extending our capacities well beyond the reach of our senses.
  There are indeed many interesting parallels between David Bohm's work in physics and Karl Pribram's work in neurophysiology. After decades of intensive research and experimentation, this world-renown neuroscientist has concluded that only the presence of holographic principles at work in the brain can explain the otherwise puzzling and paradoxical observations relating to brain function. Pribram's revolutionary model of the brain and Bohm's theory of holomovement have far-reaching implications for our understanding of human consciousness that we have only begun to translate to the personal level.

In Search of the Hidden Order

"Nature is full of genius, full of the divinity, so that not a snowflake escapes its fashioning hand."
—Henry David Thoreau
Revelations concerning the limits of Newtonian science and the urgent need for a more expansive worldview have emerged from virtually every discipline. For example, Gregory Bateson, one of the most original theoreticians of our time, challenged traditional thinking by demonstrating that all boundaries in the world are illusory and that mental functioning that we usually attribute exclusively to humans occurs throughout nature, including animals, plants, and even inorganic systems. In his highly creative synthesis of cybernetics, information and systems theory, anthropology, psychology, and other fields, he showed that the mind and nature form an indivisible unity.
  British biologist Rupert Sheldrake has offered an incisive critique of traditional science, approaching the problem from still another angle. He pointed out that in its single-minded pursuit of "energetic causation," Western science neglected the problem of form in nature. He pointed out that our study of substance alone cannot explain why there is order, pattern, and meaning in nature any more than the examination of the building materials in a cathedral, castle, or tenement house can explain the particular forms those architectural structures have taken. No matter how sophisticated our study of the materials, we will not be able to explain the creative forces that guided the designs of these structures. Sheldrake suggests that forms in nature are governed by what he calls "morphogenic fields," which cannot be detected or measured by contemporary science. This would mean that all scientific efforts of the past have totally neglected a dimension that is absolutely critical for understanding the nature of reality.
  The common denominator of all these and other recent theories that offer alternatives to Newtonian thinking is that they see consciousness and creative intelligence not as derivatives of matter—more specifically of the neurophysiological activities in the brain—but as important primary attributes of all existence. The study of consciousness, once seen as the poor cousin of the physical sciences, is rapidly becoming the center of attention in science.

The Revolution in Consciousness and the New Scientific
Worldview

2Our normal waking consciousness, rational consciousness as we call it, is but one special type of consciousness, whilst all about it, parted from it by the filmiest of screens, there lie potential forms of consciousness entirely different…. No account of the universe in its totality can be final which leaves these other forms of consciousness quite disregarded."
—William James
  Modern depth-psychology and consciousness research owe a great debt to the Swiss psychiatrist C. G. Jung. In a lifetime of systematic clinical work, Jung demonstrated that the Freudian model of the human psyche was too narrow and limited. He amassed convincing evidence showing that we must look much farther than personal biography and the individual unconscious if we are to even begin to grasp the true nature of the psyche.
  Among Jung's best known contributions is the concept of the "collective unconscious," an immense pool of information about human history and culture that is available to all of us in the depth of our psyches. Jung also identified the basic dynamic patterns or primordial organizing principles operating in the collective unconscious, as well as in the universe at large. He called them "archetypes" and described their effects on us as individuals and on human society as a whole.
  Of special interest are Jung's studies of synchronicity that we will later explore in more detail. He discovered that individualized psychological events, such as dreams and visions, often form patterns of meaningful coincidence with various aspects of consensus reality that can not be explained in terms of cause and effect. This suggested that the world of the psyche and the material world are not two separate entities, but that they are intimately interwoven. Jung's ideas thus challenge not only psychology but the Newtonian worldview of reality and the Western philosophy of science. They show that consciousness and matter are in constant interplay, informing and shaping each other in a way that the poet William Butler Yeats must have had in mind when he spoke of those events where "you cannot tell the dancer from the dance."

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