25 research outputs found
Conscious Quantum Gravity Theory
Title: Conscious Quantum Gravity Theory (CQGT): Integrating Consciousness into the Fabric of Reality
Author: Aniket Girish Waghmare
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Abstract: The search for a unifying theory that reconciles quantum mechanics and general relativity has remained elusive for over a century. In this paper, we propose a novel hypothesis: that consciousness is not an emergent property of neural complexity, but rather a fundamental, non-local field with quantum and gravitational characteristics. Termed the Conscious Quantum Gravity Theory (CQGT), this framework posits consciousness as a primary field interacting with both space-time curvature and quantum wave functions, thereby offering a new pathway toward a unified theory of everything.
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1. Introduction
Quantum mechanics and general relativity are the two pillars of modern physics. Yet, despite their individual successes, these theories have proved fundamentally incompatible when applied at the extremes of black holes and the Big Bang. The core contradiction lies in the probabilistic nature of quantum physics versus the deterministic geometry of general relativity. Numerous approaches such as string theory, loop quantum gravity, and M-theory have attempted to bridge the gap, but none have produced a testable, widely accepted theory.
This paper introduces a third component potentially missing from the current physical models: consciousness. We argue that consciousness may be a fundamental force or field that coexists with the known forces of nature and plays a role in the very structure of the universe.
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2. Theoretical Basis
2.1 Consciousness as a Non-Local Field
Consciousness is here proposed to be a field ("C-field") with intrinsic quantum properties:
It exists independently of biological substrates.
It is non-local and can influence spatially separated systems (echoing quantum entanglement).
It may carry an energetic signature akin to mass, thus interacting gravitationally.
2.2 The Observer Effect Revisited
In quantum mechanics, the observer plays a mysterious but critical role in collapsing wavefunctions. If the observer's consciousness is itself a quantum field, this might explain the discontinuity between superposition and observed outcomes.
2.3 Interaction with Gravity
We propose that the C-field interacts with space-time via a modified form of the Einstein Field Equations:
G_{\mu\nu} + C_{\mu\nu} = 8\pi G T_{\mu\nu}
Where C_{\mu\nu} represents the energetic and informational impact of the consciousness field on space-time geometry.
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3. Addressing Unification Roadblocks
Challenge CQGT Implication
Incompatibility of quantum theory and gravity The C-field provides a mediating layer of coherence
Lack of dark matter/energy explanation C-field energy may constitute a measurable portion of these phenomena
Measurement problem in quantum mechanics Observer consciousness as a quantum-gravitational entity resolves this
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4. Predictions and Testability
Modified Double Slit Experiments: Involving coherent human intention may demonstrate C-field influence on photon behavior.
Neural-Quantum Interaction: Advanced neuroimaging could detect quantum coherence in brain microtubules (as per Penrose-Hameroff model).
Cosmological Signatures: Consciousness-based anisotropies may exist in the cosmic microwave background or gravitational wave spectrum.
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5. Implications
Unified Theory of Everything: Consciousness becomes the linking principle across all physical laws.
Death and Continuity of Self: If consciousness is fundamental and non-local, individual awareness may persist beyond physical death.
Technology: Future tech may allow for interfacing with the C-field to influence physical reality directly (e.g., healing, communication, transport).
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6. Conclusion
The Conscious Quantum Gravity Theory (CQGT) suggests a paradigm shift in our understanding of the universe: that consciousness is not a byproduct, but a building block of reality. Integrating this field into our theoretical models may resolve long-standing paradoxes in physics and provide a coherent, unified framework for understanding existence at all scales.
This theory invites rigorous exploration, both theoretically and experimentally, and offers a potential bridge not only between quantum mechanics and gravity but also between science and experience.
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Contact: Aniket Girish Waghmare
[+919819672521 / [email protected]]
Keywords: Consciousness, Quantum Gravity, Unified Theory, Observer Effect, C-field, Dark Matter, Conscious Univers
Intensified synthesis of structured lipids from oleic acid rich moringa oil in the presence of supercritical CO2
Intensification of acid catalyzed synthesis of tricaprylin using ultrasound pretreatment
Utilization of agricultural waste biomass by cellulolytic isolate Enterobacter sp. SUK-Bio
A cellulolytic bacterium was isolated from plant litter soil and identified as Enterobacter sp. SUK-Bio. This isolate was investigated for its utilization of different cellulosic materials (carboxymethyl cellulose, sugarcane trash, grass powder, sorghum husk, wheat straw and water hyacinth). Utilization of sorghum husk was comparatively more than for the other cellulosic materials used, producing higher cellulolytic and hemicellulolytic enzymes (filter paperase (0.15 U/mL), β-glucosidase (37.10 U/mL), endoglucanase (12.24 U/mL), exoglucanase (2.52 U/mL), xylanase (26.26 U/mL) and glucoamylase (33.26 U/mL)) on day 8 of incubation. Furthermore, it produced the maximum reducing sugar production (554 mg/L) at a rate of 3.84 mg/h/L. Fourier-transform infrared spectroscopy analysis of sorghum husk revealed functional groups changes and a decrease in the total crystallinity ratio after microbial degradation. The effects of supplementation of different metals additives, thermal stability and pH on cellulolytic enzymes were also studied.The first author acknowledges the UGC (University Grants Commission), New Delhi for providing financial assistance through a UGC-NET-JRF fellowship during this research work
Global Research Trends on Library Management and Administration: A Bibliometric Analysis
Abstract
The present study analyzed 441 global publications on library management and administration indexed in Scopus database. Very few bibliometric studies were found on varies aspects of library management but not as whole library management and administration which made author to analyze globally.
Methods and Martials: The data was analyzed using biblioshiny app, presented three fold relation viz, authors, countries and keywords, authors and source impact, word count and word growth with thematic presentation and collaborative network of documents.
Findings: The highest contribution in library management and administration research is published in the form of journal articles and the publications are steadily growing. The top 10 most productive countries were identified and USA topped the list with highest publication (108) followed by China (81) and India (74). The top cited countries includes UK (404), USA (178) and India (138). The prolific authors were Bissels G. Shatte A., Holdsworth J., Liu Y., Rousseau R. Information management, digital management, management tools and systems are the some trending topics.
Conclusion: very few studies were found on the library management and administration globally compared to the past decades which is much needed aspect in the present digital world. We are finding separate management techniques for digital content, for library staff and content management and so on but one need to understand that all these aspects comes under one roof called library, so there is need to find the framework or system or tool or technique to manage library as a whole
Synthesis, morphology and electrical properties of Co2+ substituted NiCuZn ferrites for MLCI applications
Low temperature silicon nitride deposited by Cat-CVD for deep sub-micron metal–oxide–semiconductor devices
Silicon nitride as a gate dielectric can improve the performance of ULSI CMOS devices by decreasing the gate leakage currents. In this paper we report a a-SiN:H gate dielectric fabricated using Cat-CVD at a relatively low substrate temperature of ∼250°C, using silane and ammonia as the source gases. The films were deposited at various gas pressures, (NH3/SiH4) flow rate ratios and at different filament temperatures (TF). The deposition parameters, i.e. total gas pressure and gas composition (silane+ammonia) were optimized to deposit insulating and transparent films with high breakdown strength. The structural properties of these films were studied by Fourier transform infrared (FTIR) spectroscopy and ultraviolet-visible (UV-vis) spectroscopy. Films with bandgap as high as 5.5 eV were obtained. The optimized conditions were used to deposit ultrathin films of the order of 8 nm thickness for deep-submicron CMOS technology. Electrical properties such as C–V and I–V measurements were studied on metal–nitride–semiconductor (MNS) capacitor structures. These characterization results on MNS capacitors show breakdown fields of the order of 10 MV cm−1 and good interface properties
