QUANTUM REALITY,THE EMERGENCE OF COMPLEX ORDER FROM VIRTUAL STATES,AND THE IMPORTANCE OF CONSCIOUSNESS IN THE UNIVERSE

Abstract. I review some characteristic aspects of quantum reality and make the connection to Pierre Teilhard de Chardin's vision and a generally new quantum perspective of biological evolution. The quantum phenomena make it possible to conclude that the basis of the material world is nonmaterial; that the nature of reality is that of an indivisible wholeness; and that elementary particles possess aspects of consciousness in a rudimentary way. The quantum perspective of evolution makes it possible to conclude that the emergence of complex order in the biosphere is not from nothing (ex nihilo) but by the actualization of virtual quantum states—that is, by actualizing empty states which are part of the mathematical structure of material systems, representing a logical order that is not real in a material sense but, predetermined by system conditions, has the potential to become real in quantum jumps. I show how the existence of virtual states makes it possible to suggest that a transcendent reality underlies the visible order of the world and is immanent to it; and constantly new forms evolve from it.     

INTERPRETATION NEUTRALITY FOR QUANTUM THEOLOGY

Within contemporary scientific and science-adjacent communities, it is generally accepted that quantum physics is our best theory. For this reason, it is understandable—and laudable—that scholars interested in questions at the intersection of science and theology wish to meaningfully engage with this physics. Recent work in foundations of physics has, however, importantly altered the landscape of quantum theory; in this article, my goal is to introduce these advances, then make an argument within this new landscape that I hope will be useful for certain theological inquiries. Specifically, I shall argue from grounds of the physics itself that one may, with clear philosophical conscience, access the majority of quantum theory's tools, models, and explanations while maintaining an interpretation-neutral yet realist stance toward this physics.     

A RESPONSE TO STANLEY KLEIN: A DIALOGUE ON THE RELEVANCE OF QUANTUM THEORY TO RELIGION

Abstract. I respond to Stanley Klein's critique of my essay “Quantum Reality, the Emergence of Complex Order from Virtual States, and the Importance of Consciousness in the Universe,” arguing in support of the necessity to derive a quantum perspective of evolution rather than adhering to an essentially classical view. In response to Klein's criticism of my concept of a cosmic morality, the origins of that concept are traced back to Zeno of Citium. I wholeheartedly embrace Klein's suggestion that the new science inspires views of the human condition that can help us make the world a better place.     

ORDER FROM VIRTUAL STATES: A DIALOGUE ON THE RELEVANCE OF QUANTUM THEORY TO RELIGION

Abstract. Lothar Schäfer has written a poetic tribute pointing out the relevance of quantum theory to religious beliefs. Two items in his article trouble me greatly. First are the excessive claims about the relevance of quantum mechanisms for the creation and evolution of life. Schäfer's claim that “everything that can happen must happen” can be dangerously misleading. The quantum rules predict that most outcomes have a near‐zero chance of occurring. Although “anything can happen” can be a wonderful metaphor for living life, it can be dangerous if taken literally. It can also be misleading when applied to Darwinian mechanisms. My second trouble was with Schäfer's desire to extract moral values from quantum principles in a literalist manner. Extracting ethics from science has always been problematic. Luckily, Schäfer provides balance to these objections by including many wonderful passages that in my opinion correctly point out how quantum theory should change the way we conceive of our place in the universe. I list twelve points in which the quantum ontology differs from our normal Newtonian ontology. Awareness of these aspects is typically missing from our usual appreciation of nature, so Schäfer's poetry on a number of these points is well appreciated.     

QUANTUM ASPECTS OF LIFE: RELATING EVOLUTIONARY BIOLOGY WITH THEOLOGY VIA MODERN PHYSICS

Abstract In the present paper, I shall argue that quantum theory can contribute to reconciling evolutionary biology with the creation hypothesis. After giving a careful definition of the theological problem, I will, in a first step, formulate necessary conditions for the compatibility of evolutionary theory and the creation hypothesis. In a second step, I will show how quantum theory can contribute to fulfilling these conditions. More precisely, I claim that (1) quantum probabilities are best understood in terms of ontological indeterminism, but (2) reflect nevertheless causal openness rather than divine indifference or arbitrariness, and (3) such a genuinely creative universe can be considered as the work of a loving Creator. I ask subsequently whether these necessary conditions are also sufficient for the compatibility of evolutionary theory and the creation hypothesis. Finally, I will show that relating evolutionary biology with theology via quantum theory could also shed some light on the nature of life.     

Scientific Representation: Paradoxes of Perspective

David Lewis is a natural target for those who believe that findings in quantum physics threaten the tenability of traditional metaphysical reductionism. Such philosophers point to allegedly holistic entities they take both to be the subjects of some claims of quantum mechanics and to be incompatible with Lewisian metaphysics. According to one popular argument, the non-separability argument from quantum entanglement, any realist interpretation of quantum theory is straightforwardly inconsistent with the reductive conviction that the complete physical state of the world supervenes on the intrinsic properties of and spatio-temporal relations between its point-sized constituents. Here I defend Lewis's metaphysical doctrine, and traditional reductionism more generally, against this alleged threat from quantum holism. After presenting the non-separability argument from entanglement, I show that Bohmian mechanics, an interpretation of quantum mechanics explicitly recognized as a realist one by proponents of the non-separability argument, plausibly rejects a key premise of that argument. Another holistic worry for Humeanism persists, however, the trouble being the apparently holistic character of the Bohmian pilot wave. I present a Humean strategy for addressing the holistic threat from the pilot wave by drawing on resources from the Humean best system account of laws.     

Quantum Theory and the Boundary between Science and Spirit: Some Remarks from a Friend of Kabbalah

Physicists and philosophers argue whether quantum theory has spiritual implications. The vast majority of opinions are at two extremes: Some contend that quantum theory has absolutely no spiritual implications whatsoever, whereas others assert that it forms the very basis of a modern spirituality and can be directly applied to the human condition. It is this article's contention that neither extreme is correct. Quantum theory does have spiritual implications—a fact that its founders intuited and its enemies, Einstein preeminent among them, considered prima facie evidence of its as yet undiscovered flaws. Quantum theory has proven itself against all challenges more successfully than any other scientific theory, but its spiritual implications are extremely subtle. It provides a boundary to the materialistic, deterministic worldview and shows that there must be more to reality than that, but is inherently incapable of providing evidence as to the nature of what lies beyond that boundary.     

The Psychophysiology Of Intuition: A Quantum-Holographic Theory Of Nonlocal Communication

This work seeks to explain intuitive perception—those perceptions that are not based on reason or logic or on memories or extrapolations from the past, but are based, instead, on accurate foreknowledge of the future. Often such intuitive foreknowledge involves perception of implicit information about nonlocal objects and/or events by the body's psychophysiological systems. Recent experiments have shown that intuitive perception of a future event is related to the degree of emotional significance of that event, and a new study shows that both the brain and the heart are involved in processing a pre-stimulus emotional response to the future event. Drawing on this research and on the principles of quantum holography, I develop a theory of intuition that views the perception of things remote in space or ahead in time (nonlocal communication) as involving processes of energetic resonance connecting the body's psychophysiological systems to the quantum level. The theory explains how focused emotional attention directed to the nonlocal object of interest attunes the bio-emotional energy generated by the body's psychophysiological systems to a domain of quantum-holographical information, which contains implicit information about the object. The body's perception of such implicit information about things distant in space/time is experienced as an intuition.     

NONEMPIRICAL REALITY: TRANSCENDING THE PHYSICAL AND SPIRITUAL IN THE ORDER OF THE ONE

I describe characteristic phenomena of quantum physics that suggest that reality appears to us in two domains: the open and well‐known domain of empirical, material things—the realm of actuality—and a hidden and invisible domain of nonempirical, non‐material forms—the realm of potentiality. The nonempirical forms are part of physical reality because they contain the empirical possibilities of the universe and can manifest themselves in the empirical world. Two classes of nonempirical states are discussed: the superposition states of microphysical entities, which are nonempirical because observation destroys them, and the virtual states of material systems, which are nonempirical because they are empty. The non‐empirical part to physical reality represents a predetermined and hidden order that exists before it is empirical, and the visible world is an emanation out of it. I discuss consequences for our understanding of human nature, the origin of life, and human values. Reality is an indivisible wholeness that is aware of its processes, like a Cosmic Spirit, and it reveals its awareness in the mindlike properties of elementary processes as well as in the human consciousness. Thus, one is led to G. W. F. Hegel's thesis that the Cosmic Spirit is thinking in us.     

Eine Welt ohne Individuelle EntitÄten?

A world without individual entities? An advice to not to extract immediate ontological consequences from quantum theory. Should we assume a world without individual entities? I pledge not to extract immediate ontological consequences from quantum theory. My intention is to focus on the complexity of ontological concepts commonly associated with quantum theory. Using as an example the compatibility of EPR correlations with the existence of individual entities, it is shown that an absolute rejection of an ontological category, based on some aspects of the formalism of quantum theory, does not seem reasonable. A consequence of this argument is that the common sense view – the world is composed of individual entities – can be maintained, despite of the particularities of quantum mechanics.     

Subjectivist – observing and objective – participant perspectives on the world: Kant,aquinas and quantum mechanics

Theological thinking is influenced by perspectives on the relation of scientific knowledge to reality. Two paradigms for understanding the nature of human knowledge are considered in relation to quantum mechanics: the subjective-observing perspective of Kant, and the objective-participant perspective of Thomas Aquinas. I discuss whether quantum mechanics necessarily implies a subject centered perspective on reality, and argue, with reference to d'Espagnat's notion of veiled reality, that quantum non-separability challenges this view. I then explore whether the objective-participant perspective of Thomas Aquinas provides a more fruitful context for understanding quantum mechanics. I discuss quantum measurement in terms of the transition from potentiality to actuality, and knowledge as the latent intelligibility of the world realized. However, the negative nature of our knowledge of quantum non-separability also challenges this perspective. Our theological thinking in response to quantum knowledge must therefore proceed tentatively, balancing a via positiva, with a via negativa.     

Figuring Matter: Quantum Physics as a New Age Rhetoric

The language through which scientific advancements are relayed reflects specific social, political, and cultural needs and expectations, as well as specific constellations of hopes and anxieties. Constructions and applications of atomic discourse provide a material touchstone that is no less tangible than any other aspect of scientific enquiry. The 1970s New Age movement saw the deployment of quantum concepts with the publication of Fritjov Capra's (1975) widely popular The Tao of Physics and Gary Zukav's (1979) The Dancing Wu Li Masters, and from these publications the notions of quantum consciousness and quantum mysticism were born. In the late twentieth and early twenty-first century, the post-New Age concept of quantum healing began to structure a cluster of self-help programs, while at the same time quantum ‘get-rich’ schemes developed a presence on the internet. In these reconfigurations of the quantum, atomic particles have been transformed into vivified ‘agents’ whose unique movements and interactions promise to secure health, happiness, and wealth to self-directed and depoliticized consumers. The commodification inherent in this process extends increasingly to encompass areas of subjectivity—for example, spirituality—that historically have been considered immune to overt commercialization. This extension of the commodification process is evidenced in the way that quantum methodologies are commercialized and then sold to people as a means of advancing, not just their financial interests, but their spiritual well-being as well. The new economy of the atom also emerges from the late-twentieth and early twenty-first century retreat from the public sphere and the attendant atrophy of the public sphere as a site of interpersonal engagement. At the same time, the invocation and application of quantum rhetoric touches on a deep contemporary sense of being unmoored and the need for structured guidance as a means toward a renewed sense of control over one's life. The nomadic quality of quantum language and concepts ensures that, no matter what an individual's complaint or desire, there exists a quantum strategy to ameliorate or realize it. This remarkable adaptability marks twenty-first century quantum language as unique, not only within the discipline of physics, but also relative to all fields of scientific inquiry.     

Quantum Mechanics and "Song of Myself": Getting a Grip on Reality

Most recent writing linking science and literature has concerned itself with challenges to the epistemological status of scientific knowledge in an attempt to demonstrate its contingency, arguing in the more radical efforts that the structures of science are no more than useful fictions. This essay also includes an epistemological comparison between science and literature, but instead of making grand or meta–statements about the nature of knowing generally in the two fields, mine is a much narrower aim. My exploration entails two tasks. First, I provide a close–up look at a particular type of experiment, called the delayed–choice experiment, which clearly reveals the strangeness of the quantum world. In connection with this experiment, I discuss wave functions—mathematical expressions used by physicists to describe quantum behavior and predict the outcome of experiments involving quanta. Second, I look at Walt Whitman's “Song of Myself” focusing on the meaning of the “self” in the poem. My aim is to treat the object of study in each field as a “text” and to assert and demonstrate a parallel in the strategies of thought and response between physicists (“readers”) pondering the meaning and status of a wave function and poem readers pondering the meaning and status of the poem's self. In Whitman's “Song” we find an attempt to understand complex aspects of human experience that are said to transcend ordinary reality, an effort for which I believe there are parallels in the attempts of modern physicists to understand complex, nonintuitive aspects of the subatomic world. While not making the kind of broad claims eschewed above, I do suggest that this focused study has interesting implications since both the wave function and the poem's self force their respective sets of “readers” to confront questions of ultimacy—to consider, that is, epistemological and ontological issues of more than passing interest to students of science as well as those of metaphysics and theology.     

IS QUANTUM INDETERMINISM REAL? THEOLOGICAL IMPLICATIONS

Quantum mechanics (QM) studies physical phenomena on a microscopic scale. These phenomena are far beyond the reach of our observation, and the connection between QM's mathematical formalism and the experimental results is very indirect. Furthermore, quantum indeterminism defies common sense. Microphysical experiments have shown that, according to the empirical context, electrons and quanta of light behave as waves and other times as particles, even though it is impossible to design an experiment that manifests both behaviors at the same time. Unlike Newtonian physics, the properties of quantum systems (position, velocity, energy, time, etc.) are not all well‐defined simultaneously. Moreover, quantum systems are not characterized by their properties, but by a wave function. Although one of the principles of the theory is the uncertainty principle, the trajectory of the wave function is controlled by the deterministic Schrödinger equations. But what is the wave function? Like other theories of the physical sciences, quantum theory assigns states to systems. The wave function is a particular mathematical representation of the quantum state of a physical system, which contains information about the possible states of the system and the respective probabilities of each state.     

Debunking enactivism: a critical notice of Hutto and Myin's Radicalizing Enactivism

In this review of Hutto and Myin's Radicalizing Enactivism, I question the adequacy of a non-representational theory of mind. I argue first that such a theory cannot differentiate cognition from other bodily engagements such as wrestling with an opponent. Second, I question whether the simple robots constructed by Rodney Brooks are adequate as models of multimodal organisms. Last, I argue that Hutto and Myin pay very little attention to how semantically interacting representations are needed to give an account of choice and action.     

On Kantians and Pragmatists: Kenneth Baynes's Habermas

In this article I lay out Kenneth Baynes's interpretation of Habermas's social and political philosophy, and develop three lines of criticism. The first concerns the question of whether, and if so in what respect, Habermas's political theory counts as a critical social theory. I argue that it is not clear in what sense Habermas's political theory is a ‘critical’ social theory, and that Baynes's interpretation throws little light on this issue. The second related issue is to what extent it can be fairly claimed that on Habermas's account of democracy, political legitimacy rests on a “core morality”. While there is a possible reconstruction of Habermas along these lines, I argue that it conflicts with the central tenets of Habemras's political theory. Finally, I question whether Baynes is right to align Habermas's ideal of public reason so closely with Rawls's.     

RESPONSE TO CRITIQUES OF RELIGION IN AN AGE OF SCIENCE

Abstract. In replying to the four thoughtful critiques of my first Gifford volume I try to clarify the differences among us. I defend my use of Kuhn's concept of paradigms against Nancey Murphy's use of Lakatos's concept of research programs and then compare both of us with advocates of the “strong program” in the social construction of science. Sallie McFague identifies me with the empiricist, objectivist, “modernist” tradition and contrasts it to her own “postmodernist” acceptance of cultural relativism and the social construction of science, but I argue that I am seeking an intermediate position that redefines objectivity rather than rejecting it. Some themes common to feminist and process theology are also examin ed. In dialogue with Bob Russell I discuss the metaphysical and theological implications of the unity of space and time in relativity, the beginning of time in recent cosmology, and the thesis that God acts by determining events in indeterminate quantum systems. Finally I compare John Cobb's indebtedness to Whitehead with my own and suggest that I am more willing to adapt or modify process thought in the interpretation of scientific theories and religious experience.     

Non-monotonic Probability Theory and Photon Polarization

A non-monotonic theory of probability is put forward and shown to have applicability in the quantum domain. It is obtained simply by replacing Kolmogorov’s positivity axiom, which places the lower bound for probabilities at zero, with an axiom that reduces that lower bound to minus one. Kolmogorov’s theory of probability is monotonic, meaning that the probability of A is less then or equal to that of B whenever A entails B. The new theory violates monotonicity, as its name suggests; yet, many standard theorems are also theorems of the new theory since Kolmogorov’s other axioms are retained. What is of particular interest is that the new theory can accommodate quantum phenomena (photon polarization experiments) while preserving Boolean operations, unlike Kolmogorov’s theory. Although non-standard notions of probability have been discussed extensively in the physics literature, they have received very little attention in the philosophical literature. One likely explanation for that difference is that their applicability is typically demonstrated in esoteric settings that involve technical complications. That barrier is effectively removed for non-monotonic probability theory by providing it with a homely setting in the quantum domain. Although the initial steps taken in this paper are quite substantial, there is much else to be done, such as demonstrating the applicability of non-monotonic probability theory to other quantum systems and elaborating the interpretive framework that is provisionally put forward here. Such matters will be developed in other works.     

Why did the new physics force out the old?

The aim of my paper is to demonstrate that Special Relativity and the early quantum theory were created within the same programme of statistical mechanics, thermodynamics and Maxwellian electrodynamics. I shall try to explain why classical mechanics and classical electrodynamics were “refuted” almost simultaneously or, in other words, why the quantum revolution and the relativistic one both took place at the beginning of the 20th century. I shall argue that the quantum and relativistic revolutions were simultaneous since they had a common origin—the clash between the fundamental theories of the second half of the 19th century that constituted the “body” of classical physics. The revolution's most dramatic point was Einstein's 1905 photon paper that laid the foundations of both special relativity and the old quantum theory. Hence the dialectic of the old theories is crucial for theory change. Later, classical physics was forced out by the joint development of quantum and relativistic sub‐programmes. The title of my paper can be reformulated in Bruno Latour's terms: The Einstein Revolution or Drawing Models Together.     

RELIGION AND THE THEORIES OF SCIENCE: A RESPONSE TO BARBOUR

Abstract. This paper offers a detailed response to “Religion and the Theories of Science” in Barbour's Gifford Lectures I. Topics include: complementarity, indeterminacy, parts and wholes, and Bell's theorem in quantum theory; metaphysical issues raised by relativity theory and thermodynamics, principally the problem of temporality and “top-down” versus “bottom—up” causality; design arguments and the origins of the universe in astronomy and creation; and God's action in the context of evolution and continuing creation. Areas of agreement and disagreement between Barbour and myself over philosophical and theological implications are presented, and endnotes indicate further areas of conversation.