The Intention Experiment: Use Your Thoughts to Change the World. Lynne McTaggart
zero, something really strange would begin to happen: the atoms, which ordinarily can operate at a number of different speeds, would slow down to identical energy levels. In this state, the atoms would lose their individuality and both look and behave like one giant atom. Nothing in his mathematical armamentarium could tell them apart. If this were true, he realized, he had stumbled upon an entirely new state of matter, with utterly different properties from anything known in the universe.
Einstein published his findings,17 and lent his name to the phenomenon, called a Bose–Einstein condensate, but he was never convinced that he had been right. Nor were other physicists, until more than 70 years later when, on 5 June 1995, Eric Cornell and Carl Wieman of JILA, a programme sponsored by the National Institute of Standards and Technology and the University of Colorado at Boulder, managed to cool a tiny batch of rubidium atoms down to 170 billionths of a degree above absolute zero.18 It had been quite a feat, requiring trapping the atoms in a web of laser light and then magnetic fields. At a certain point, a batch of some 2000 atoms – measuring about 20 microns, about one-fifth the thickness of a single piece of paper – began behaving differently from the cloud of atoms surrounding them, like one smeared-out single entity. Although the atoms were still part of a gas, they were behaving more like the atoms of a solid.
Four months later, Wolfgang Ketterle from Massachusetts Institute of Technology replicated their experiment, but with a form of sodium, for which he, as well as Cornell and Wieman, won the 2001 Nobel prize.19 Then a few years after that, Ketterle and others like him were able to reproduce the effect with molecules.20
Scientists believed that a form of Einstein and Bose’s theory could account for some of the strange properties they had begun to observe in the subatomic world: superfluidity, when certain fluids can flow without losing energy, or even spontaneously work themselves out of their containers; or superconduction, a similar property of electrons in a circuit. In superfluid or superconductor states, liquid or electricity could theoretically flow at the same pace forever.
Ketterle had discovered another amazing property of atoms or molecules in this state. All the atoms were oscillating in perfect harmony, similar to photons in a laser, which behave like one giant photon, vibrating in perfect rhythm. This organization makes for an extraordinary efficiency of energy. Instead of sending a light about 3 metres, the laser emits a wave 300 million times that far.
Scientists were convinced that a Bose–Einstein condensate was a peculiar property of atoms and molecules slowing down so much that they are almost at rest, when exposed to temperatures only a fraction above the coldest temperatures in the universe. But then Fritz-Albert Popp and the scientists working with him made the astonishing discovery that a similar property existed in the weak light emanating from organisms. This was not supposed to happen in the boiling inner world of the living thing. What is more, the biophotons he measured from plants, animals and humans were highly coherent. They acted like a single super-powerful frequency, a phenomenon also referred to as ‘superradiance’.
The German biophysicist Herbert Fröhlich had first described a model in which this type of order could be present and play a central role in biological systems. His model showed that, with complex dynamic systems like human beings, the energy within created all sorts of subtle relationships, so that it is no longer discordant.21 Living energy is able to organize to one giant coherent state, with the highest form of quantum order known to nature. When subatomic particles are said to be ‘coherent’, or ‘ordered’, they become highly interlinked by bands of common electromagnetic fields, and resonate like a multitude of tuning forks all attuned to the same frequency. They stop behaving like anarchic individuals and begin operating like one well-rehearsed marching band.
As one scientist put it, coherence is like comparing the photons of a single 60-watt light bulb to the sun. Ordinarily, light is extraordinarily inefficient. The intensity of light from a bulb is only about 1 watt per square centimetre of light – because many of the waves made by the photons destructively interfere with and cancel out each other. The light per square centimetre generated by the sun is about 6000 times stronger. But if you could get all the photons of this one small light bulb to become coherent and resonate in harmony with each other, the energy density of the single light bulb would be thousands to millions of times higher than that of the surface of the sun.22
After Popp made his discoveries about coherent light in living organisms, other scientists postulated that mental processes also create Bose–Einstein condensates. British physicist Roger Penrose and his partner, American anaesthetist Stuart Hameroff from the University of Arizona, were in the vanguard of frontier scientists who proposed that the microtubules in cells, which create the basic structure of the cells, were ‘light pipes’ through which disordered wave signals were transformed into highly coherent photons and pulsed through the rest of the body.23
Gary Schwartz had witnessed just this coherent photon stream emanating from the hands of healers. After studying the work of scientists like Popp and Hameroff, he finally had his answer about the source of healing: if thoughts are generated as frequencies, healing intention is well-ordered light.
Gary Schwartz’s creative experiments revealed to me something fundamental about the quantum nature of thoughts and intentions. He and his colleagues had uncovered evidence that human beings are both receivers and transmitters of quantum signals. Directed intention appears to manifest as both electrical and magnetic energy and to produce an ordered stream of photons, visible and measurable by sensitive equipment. Perhaps our intentions also operate as highly coherent frequencies, changing the very molecular makeup and bonding of matter. Like any other form of coherence in the subatomic world, one well-directed thought might be like a laser light, illuminating without ever losing its power.
I was reminded of an extraordinary experience Schwartz once had in Vancouver. He had been staying in the penthouse apartment suite of a downtown hotel. He had awakened at 2 a.m., as he often did, and had walked out to the balcony to have a look at the spectacular view of the city to the west, framed by the mountains. He was surprised to see how many hundreds of homes along the peninsula below him still had their lights on. He wished he had a telescope handy to see what some of the people were doing up at this late hour. But of course, if any of them had their own telescope, they would be able to see him standing there in the nude. An odd thought suddenly came to him of his own naked image flying into each window. But maybe the idea was not so fanciful. After all, he was emitting a constant stream of biophotons, all travelling at the speed of light; each photon would have travelled 186,000 miles one second later, and 372,000 miles one second after that.
His light was not unlike the photons of visible light emanating from stars in the sky. Much of the light from distant stars has been travelling for millions of years. Starlight contains a star’s individual history. Even if a star had died long before its light reached earth, its information remains, an indelible footprint in the sky.
He then had a sudden image of himself as a ball of energy fields, a little star, glowing with a steady stream of every photon his body had ever produced for more than 50 years. All the information he had been sending from the time he was a young boy in Long Island, every last thought he had ever had, was still out there, glowing like starlight. Perhaps, I thought, intention was also like a star. Once constructed, a thought radiated out like starlight, affecting everything in its path.
Notes - Chapter 2: The Human Antenna
1. All personal details about Gary Schwartz and his discoveries result from multiple interviews with him and the author, March–June 2006.