Gamers as Homeopathic Media Therapy

Mainstream Western medical theory is based on treating the symptoms of disease—a dynamic derisively called “bandage treatment.” This medical perspective is the inverse of homeopathic theory, which aims to treat the quantum level cause of disease. Because homeopathy addresses the quantum “first cause” of disease, it establishes precedents for understanding Divine “First Cause.” Homeopathic theory and practice are based on recognizing symptomatic syndromes—a process very similar to Carl Jung's practice of inducing healing with a patient's insight as to the meaning of dream symbolism. This meaningful insight functions like the EM signature of a homeopathic remedy. The homeopathic physician augments “remediation” of phenotypes from quantum dimensions in the same way that a Jungian psychiatrist augments (amplifies) a patient's self-healing insight. The homeopathic/Jungian dynamic works something like antibodies that neutralize antigens, so—in a virtual EM unified media-field—contextual gamers can serve the function of antibodies against mediated toxicity.

Quantum Creativity: Afracting New Materialism in the Anthropocene

This essay engages the vicissitudes of new materialism at the quantum level, attempting to differentiate what I take to be fundamental differences in the theoretical positions of vitalist theories as developed by Karen Barad and Deleuze and Guattari in relation to the Anthropocene. I treat matter at the quantum level to differentiate conceptions of apparatus and assemblage. It is argued that one should not treat them under the same signifiers. There is the question of creativity that runs through the essay which also raises questions concerning an “affirmative” Deleuze, the dominant position when it comes to the arts, humanities, and pedagogy. Against these particular developments, anorganic life as in|different comes to fore where issues of creative destruction must be faced.

One-loop masses of Neumann-Dirichlet open strings and boundary-changing vertex operators

We derive the masses acquired at one loop by massless scalars in the Neumann-Dirichlet sector of open strings, when supersymmetry is spontaneously broken. It is done by computing two-point functions of “boundary-changing vertex operators” inserted on the boundaries of the annulus and Möbius strip. This requires the evaluation of correlators of “excited boundary-changing fields,” which are analogous to excited twist fields for closed strings. We work in the type IIB orientifold theory compactified on T2× T4/ℤ2, where $$ \mathcal{N} $$ N = 2 supersymmetry is broken to $$ \mathcal{N} $$ N = 0 by the Scherk-Schwarz mechanism implemented along T2. Even though the full expression of the squared masses is complicated, it reduces to a very simple form when the lowest scale of the background is the supersymmetry breaking scale M3/2. We use our results to analyze in this regime the stability at the quantum level of the moduli fields arising in the Neumann-Dirichlet sector. This completes the study of ref. [32], where the quantum masses of all other types of moduli arising in the open- or closed-string sectors are derived. Ultimately, we identify all brane configurations that produce backgrounds without tachyons at one loop and yield an effective potential exponentially suppressed, or strictly positive with runaway behavior of M3/2.

Quantum imprints of gravitational shockwaves

Gravitational shockwaves are simple exact solutions of Einstein equations representing the fields of ultrarelativistic sources and idealized gravitational waves (shocks). Historically, much work has focused on shockwaves in the context of possible black hole formation in high energy particle collisions, yet they remain at the forefront of research even today. Representing hard modes in the bulk, shocks give rise to the gravitational memory effect at the classical level and implant supertranslation (BMS) hair onto a classical spacetime at the quantum level. The aim of this paper is to further our understanding of the ‘information content’ of such supertranslations. Namely, we show that, contrary to the several claims in the literature, a gravitational shockwave does leave a quantum imprint on the vacuum state of a test quantum field and that this imprint is accessible to local observers carrying Unruh-DeWitt (UDW) detectors in this spacetime.

Consciousness beyond artificial intelligence in the conditions of criminological uncertainty

One of the most difficult problems of our time is the problem of consciousness. There are many different theoretical concepts of consciousness, both in Russia and abroad. The fact, that sometimes the researchers use the so-called artificial intelligence as a research model of consciousness, aggravates the situation. Recently the criminologists use artificial intelligence, which has come to the aid of the human mind, in their practice. The authors summarize the best practices and conceptualize the use of artificial intelligence in some fields of criminology. The study offers some methodological and theoretical aspects of solving the problems based on trends in the use of artificial intelligence in practical criminology. The authors investigate the interaction of artificial intelligence with human consciousness. The basis of the comparative analysis is the quantum level of consciousness, that is, a quantum theoretical concept based on the concepts of mathematicians and modern physicists. This paradigm of the exact sciences is fundamentally different from the humanitarian paradigm based on philosophy and psychology. The proposed approach makes it possible to understand the physical meaning, the mechanisms of consciousness and artificial intelligence at the quantum level. The authors consider it important to emphasize that there are deep parallels between the functioning of consciousness and artificial intelligence. The well-known psychologist K. Jung and the Nobel laureate physicist W. Pauli discussed similar parallels between idea and matter. The article analyzes the positive and negative aspects of the joint interaction of consciousness and artificial intelligence. This reveals the role of the interdisciplinary science of synergetics. Since consciousness and artificial intelligence are quantum in nature, both general and distinctive laws of non-linear systems functioning apply to these phenomena. There is an uncertainty principle, the meaning of which is as follows: if one parameter is precisely defined in the system, then other parameters cannot be defined, they are uncertain. This facet is movable. The authors analyze some aspects of criminological uncertainty upon occurrence of socio-psychological distorting effects. The psychologists Ph. Zimbardo and S. Milgram investigated them in group experiments. The article substantiates the prospects for the artificial intelligence development and the limitations of its use in criminology. The authors are pessimistic about the development and application of artificial intelligence in criminology. Artificial intelligence does not have the “I” status of a personality, although it can be "subordinated" to legal laws of different levels. The use of artificial intelligence for judicial proceedings is problematic, although there are great opportunities for operational search activities in its functioning, for example, anti-crime programs: recognizing appearance from photos and videos, predicting individual criminal behavior. This frees the consciousness of the expert from routine work, and the employee can therefore choose a creative approach and pay more attention to ethical issues, which is not available for artificial intelligence.

Relation between Schrödinger’s Equation and Einstein’s Equation

The relationship between Einstein's Field Equation and Schrodinger's Equation is examined in thiswork. I adjusted Schrodinger's Equation to offer the solution, and utilizing the wave equation, Icame up with two cases: In case 1, I discovered the structure and dimension of the equations in amanner similar to Einstein's Field Equation, and in case 2, the Helmholtz equation replaces themodified Schrodinger's equation. Finally, the findings suggested that wave functions may haverelevance beyond determining the position of a particle, and that they may be used to determinethe structure of space-time at the quantum level.