TITLE:
Electromagnetic-Torsion Time Machine for Rejuvenation
AUTHORS:
Bi Qiao
KEYWORDS:
Time Machine, Entropic Order Reconstruction, Electromagnetic-Torsion Coupling, Generalized Gauge Transformation
JOURNAL NAME:
Open Journal of Biophysics,
Vol.16 No.3,
July
9,
2026
ABSTRACT: Time travel and biological age reversal represent the ultimate aspirations long pursued by humanity. However, conventional time machine schemes grounded in General Relativity—whether closed timelike curves, traversable wormholes, or warp drives—are fundamentally mechanisms for manipulating spacetime coordinates. In such frameworks, an observer traverses a closed worldline returning to a past spacetime location, yet their own proper time continues to march forward, ensuring biological age only increases. Stated plainly, traditional time machines manage position but not entropy: even upon arriving thirty years in the past, the traveler remains confined within their present, aged corporeal form. Moreover, sustaining the requisite macroscopic spacetime curvature demands Jupiter-scale negative energy densities, a requirement far exceeding current technological frontiers and consigning such proposals to prolonged theoretical speculation. Within the framework of the Generalized Gauge Equation (GGE) and Einstein-Cartan torsion gravity, this paper proposes a fundamentally distinct paradigm for temporal regression: not by shifting spacetime coordinates, but by locally reversing the entropy arrow. Through the coherent nonlinear superposition of eight high-order vortex optical solitons, we utilize electromagnetic-torsion coupling to excite a stationary negative-entropy bubble. Without altering macroscopic spatial position, this bubble exponentially suppresses the forward reaction rate of free-radical oxidative damage in human cells while relatively enhancing the net efficiency of endogenous repair mechanisms—thereby achieving a physical reversal of free-radical oxidative damage. Due to the upstream driving role of mitochondrial free-radical damage in the causal network of aging, this reversal will indirectly benefit multiple downstream aging hallmarks through cascading effects. On the theoretical front, we first derive the coupling Equations between the effective torsion tensor and the electromagnetic field tensor based on the GGE algebraic equivalence
T
EM
=
J
12
, demonstrating that circularly polarized electromagnetic fields carrying high orbital angular momentum serve as a direct source for a macroscopic axial torsion field. Second, we establish the strict equivalence between the temporal component of axial torsion and the axial chemical potential. Under steep torsion gradients, the chiral magnetic effect facilitates a pumping mechanism that converts disordered thermal energy into ordered spin currents, driving the local entropy production rate negative. Third, we formulate a competitive model describing coherent spin precession of radical electrons versus stochastic thermal diffusion within the torsion field. We define a cumulative spin mismatch phase and derive its quantitative relationship with the probability of reverse repair—specifically, reversing three decades of mitochondrial oxidative damage necessitates a cumulative phase of approximately 1014 radians, corresponding to a torsion strength on the order of
T~
10
10
. From an engineering perspective, the scheme employs eight vortex beams with a wavelength of 1.064 μm and topological charge
ℓ~
10
4
, focused along the vertices of a regular octahedron. The synergistic interplay of multi-wave mixing and multiple parametric resonances amplifies the effective growth rate of chiral instability to approximately ~1016 s−1, yielding an exponential magnification of the effective topological charge to 1019 - 1020. This results in the formation of a stable torsional soliton bubble, 1 - 2 meters in diameter, at the focal region. Energy estimations indicate an initial excitation requirement of roughly 106 - 107 J, with a steady-state maintenance power of approximately 1012 - 1013 W sustained over a duration of about 1000 seconds. This represents an energy reduction of roughly 28 orders of magnitude compared to conventional warp drive metrics. Biosafety analysis reveals that torsion acts exclusively on spin degrees of freedom rather than kinetic degrees of freedom, rendering tissue heating negligible and ensuring that mnemonic information remains wholly unaffected. For the first time, this work extends the physical connotation of a time machine from “coordinate regression” to “entropic order reconstruction,” providing a self-consistent theoretical foundation and a computable engineering blueprint for the physics-based reversal of free-radical damage.