A mechanism study on the dominance of alternating strong magnetic beams from the galactic center over terrestrial anomalous phenomena

— Unified explanation of flying rocks and crop circles

Jian'an Wang

Email: wja@szu.edu.cn

Department of Physics, Shenzhen University, Shenzhen, China

AbstractAnomalous natural phenomena such as flying rocks and crop circles globally exhibit consistent patterns: high incidence at midnight, accompanied by thunderstorms, and synchronized loud booms. Fragmented explanations from mainstream science have failed to establish a complete causal chain. Based on Jian'an Wang ’s core theory in On the Essence of Gravity that gravity arises from the statistical superposition of interactions between orbital electron magnetic moments in atoms and ions [1], this paper systematically demonstrates that alternating strong magnetic beams radiated from the supermassive black hole region at the Galactic Center constitute the cosmic primary cause of such anomalous phenomena [2,3]. The results show that alternating strong magnetic beams from the Galactic Center propagate directionally along galactic magnetic flux tubes and can reach the Earth’s surface unobstructed only at midnight in summer, when the Earth is positioned away from the Sun and toward the Galactic Center [4,5]. By modulating local gravitational and electromagnetic fields and aggregating atmospheric charged particles, these magnetic beams simultaneously trigger precise long-distance transport of giant rocks (flying rocks), directional and orderly lodging of crops (crop circles), and induce thunderstorms and discharge-generated loud booms [6,7]. At midnight in winter, when the Earth faces away from both the Sun and the Galactic Center, magnetic beams from the Galactic Center cannot penetrate the solar magnetic field or propagate by reflection, leading to the near disappearance of such anomalies [4,8]. This paper constructs a complete physical chain of “Galactic Center magnetic beam – terrestrial field effect – anomalous phenomena”, providing a novel and self-consistent academic paradigm for research on terrestrial anomalous natural phenomena and offering multi-dimensional empirical support for the electromagnetic origin theory of gravity [1,9].

Keywords: Galactic Center; alternating strong magnetic beam; flying rock; crop circle; essence of gravity; orbital electron magnetic moment; seasonal distribution

1. Introduction

flying rocks and crop circles are anomalous natural phenomena verified by numerous ancient documents, local chronicles, oral histories, and modern eyewitness records worldwide [10,11]. They share highly uniform core characteristics: concentrated occurrence from midnight to early morning, inevitable association with thunderstorms and strong convective weather, and synchronization with loud booms, luminous spheres, or electromagnetic anomalies [6,7]. flying rocks are typified by sudden appearance, absence of transport traces, and precise soft landing; crop circles feature precise geometric patterns, smooth crop lodging without mechanical damage [10,12].

Mainstream science has long offered fragmented explanations for these two phenomena: flying rocks are attributed to differential weathering, glacial transport, or rock collapses; crop circles are ascribed to man-made hoaxes, meteorological disturbances, or UFO activities [13,14]. Such explanations suffer fatal flaws: they cannot account for the strong correlation among “midnight occurrence, thunderstorm accompaniment, and synchronized loud booms”, cannot explain the physical mechanisms underlying traceless long-distance transport of giant rocks and precise geometric lodging of crops, and fail to clarify the seasonal distribution patterns of the two phenomena [8,15].

In On the Essence of Gravity (2022), Jian'an Wang  proposed a subversive theory: the gravitational field is essentially a magnetic field, and universal gravitation emerges from the statistical superposition of interactions between orbital electron magnetic moments in atoms or ions within objects. According to this theory, external alternating strong magnetic fields can modulate local gravitational field strength or convert gravity into repulsion. This theory provides a new framework for the unified interpretation of anomalous natural phenomena. Combined with astronomical observations, the region of the supermassive black hole and compact celestial bodies at the Galactic Center continuously emits large‑scale, low‑frequency, alternating, and collimated strong magnetic beams with long‑distance directional propagation and strong penetration capabilities [2,3]. Based on this theory and observational evidence, this paper systematically argues that alternating strong magnetic beams from the Galactic Center are the unified cosmic primary cause of flying rocks, crop circles, and related accompanying features, clarifies the intrinsic connections between phenomena and celestial orientation and seasonal changes, and improves the natural empirical system of the electromagnetic origin theory of gravity [1,9].

2. Theoretical Foundation: Core Ideas of Jian'an Wang ’s On the Essence of Gravity and Characteristics of Galactic Center Magnetic Beams

2.1 Electromagnetic Essence of Gravity

Based on analyses of cyclotron accelerator experimental phenomena, Jian'an Wang  (2022) reached a core conclusion: particles accelerable by cyclotrons (e.g., protons, electrons, alpha particles) possess no orbital electrons, whereas objects subject to gravity are all composed of atoms/ions containing orbital electrons. It is therefore inferred that universal gravitation is essentially a long‑range, weakly coupled, statistical magnetic interaction [1]. This theory breaks the traditional paradigms of Newtonian mass gravity and Einsteinian spacetime curvature. According to the theory, an external strong alternating magnetic field can force the orbital electron magnetic moments of an object to reorient synchronously with its frequency, thereby reducing, eliminating, or even reversing the object’s gravity (converting gravity to repulsion), providing a physical basis for object levitation and long‑distance transport [1,9].

2.2 Core Characteristics of Alternating Strong Magnetic Beams from the Galactic Center

The Galactic Center (Sagittarius A* region) hosts a supermassive black hole, compact stars, plasma clouds, and other celestial bodies. High‑speed rotation, compression, friction, and magnetic reconnection naturally generate strong magnetic fields and radiate directional alternating strong magnetic beams outward [2,3]. Their core characteristics are as follows:(1) Directivity and collimation: Constrained by the Galactic Center gravitational potential well and galactic magnetic flux tubes, magnetic beams propagate linearly without random dispersion or bending, traversing the Milky Way along galactic magnetic flux tubes to reach the Solar System and Earth’s orbit [4,5];(2) Alternating property: Irregular mass accretion and ejection by the black hole accretion disk and periodic oscillation of the magnetic axis endow the radiated magnetic field with low‑frequency alternating characteristics and large amplitude;(3) Penetration: With wavelengths ranging from kilometers to astronomical units, magnetic beams easily penetrate interstellar dust, interplanetary medium, and Earth’s atmosphere with extremely low loss, being significantly affected only by the solar magnetic field and Earth’s ionosphere [5,8];(4) Intensity characteristics: The intrinsic intensity of large‑scale transmittable magnetic beams from the Galactic Center ranges from 10⁻⁸ T to 10⁻⁵ T (upper limit 10⁻⁵ T), including approximately 10⁻⁸ T in large‑scale regions (100–500 pc) of the Galactic Center, up to 10⁻⁷ T in dense filamentary structures, and an upper limit of 10⁻⁵ T in local extreme magnetic reconnection zones. After long‑distance propagation to the Earth’s surface, the original intensity is merely 10⁻¹²–10⁻¹⁰ T, far weaker than the geomagnetic field (approximately 5×10⁻⁵ T), requiring amplification via a local focusing mechanism to reach the threshold for gravity modulation [3,5].

2.3 Local Focusing Mechanism of Galactic Center Magnetic Beams (Key to Intensity Amplification)

The intrinsic intensity of Galactic Center magnetic beams reaching the Earth’s surface is insufficient to directly modulate gravity. A triple‑focusing mechanism—“galactic magnetic flux tube collimation + geomagnetic funnel convergence + thunderstorm plasma self‑focusing”—is required to amplify intensity in small local surface areas and bridge the magnitude gap. The core processes are as follows:First, natural collimation and focusing by galactic magnetic flux tubes. The Milky Way possesses natural interstellar magnetic flux tube structures that confine the large‑scale dispersed Galactic Center magnetic field into narrow beams for directional conduction. By reducing the cross‑sectional area of the magnetic beam, magnetic field strength increases inversely, achieving preliminary convergence of magnetic energy and laying a foundation for subsequent surface focusing. This collimation effect has been confirmed by astronomical observations of filamentary magnetic flux tubes in the Milky Way [4,5].Second, “magnetic funnel” focusing by the Earth’s dipole magnetic field. Magnetic field lines of the Earth’s dipole magnetic field converge from the equator to the poles, forming a “magnetic funnel” convergence zone in the middle latitudes. Parallel magnetic beams from the Galactic Center can converge along geomagnetic field lines to small local spots on the ground, similar to the focusing effect of a convex lens, compressing weak magnetic energy over a large area into a small range of tens to hundreds of meters and achieving a secondary enhancement of magnetic field strength [5,8].Third, thunderstorm plasma self‑focusing (core amplification term). After entering the Earth’s atmosphere, Galactic Center magnetic beams attract and aggregate atmospheric charged particles to form thunderclouds. Thunderstorm regions are filled with plasma, charged ions, and strongly ionized air; plasma exhibits a magnetic self‑focusing pinch effect that further constrains and converges incoming weak magnetic beams inward, achieving substantial amplification of magnetic field strength with magnification factors up to 10⁴–10⁶ [6,7].

After triple focusing, the intensity of Galactic Center magnetic beams in local surface areas can be raised to 10⁻⁶–10⁻⁴ T, approaching or even reaching the geomagnetic field magnitude, fully satisfying the physical conditions for “magnetic field superposition‑modulated gravity” in Wang’s theory and enabling quasi‑levitation, levitation, and directional translation of giant rocks [1,9]. Furthermore, the focusing process occurs only in small local areas and depends on a thunderstorm plasma environment, explaining the core characteristics of “point‑like sudden occurrence and inevitable thunderstorm association” for flying rocks and crop circles [6,7].

2.4 Earth–Sun–Galactic Center Orientation Relationship and Magnetic Beam Propagation Conditions

The Galactic Center lies in the direction of Sagittarius, approximately 26,000 light‑years from Earth. The orientation change caused by Earth’s revolution around the Sun directly determines the feasibility of Galactic Center magnetic beams reaching Earth [4,5]:(1) Midnight in summer (May–September, Northern Hemisphere): Earth lies between the Sun and the Galactic Center, with the night hemisphere facing the Galactic Center away from the Sun. At this time, solar electromagnetic shielding is weakest, and Galactic Center magnetic beams can reach the Earth’s surface unobstructed along straight lines. Combined with the triple‑focusing mechanism, local strong magnetic fields readily form and trigger anomalous phenomena [4,8];(2) Midnight in winter (December–February, Northern Hemisphere): Earth lies on the side of the Sun opposite to the Galactic Center, with the night hemisphere facing away from both the Sun and the Galactic Center. Galactic Center magnetic beams would need to penetrate the Sun itself, overcome solar magnetic field repulsion, and complete a 180° reflection. From the perspective of astrophysical fluid dynamics, this path involves enormous energy loss and is nearly physically unachievable. Therefore, Galactic Center magnetic beams cannot reach the Earth’s surface, and anomalous phenomena nearly disappear [4,8].

3. Unified Mechanism of Terrestrial Anomalous Phenomena Triggered by Alternating Strong Magnetic Beams from the Galactic Center

3.1 Formation Mechanism of Three Accompanying Characteristics (Midnight, Thunderstorms, Loud Booms)

3.1.1 High Incidence at Midnight: Time Window of Solar Electromagnetic Shielding

During the day, Earth lies inside the Sun and is fully enveloped by the solar electromagnetic protection domain. Coupled with the multi‑layer electromagnetic barrier formed by the solar wind and the ionospheric D‑layer (80–100 km), alternating strong magnetic beams from the Galactic Center are scattered, attenuated, and blocked, making it difficult for them to reach the surface. Late at night (23:00–04:00), Earth faces away from the Sun, exits the solar electromagnetic protection domain, the ionospheric D‑layer dissipates, and solar electromagnetic interference drops to a minimum, forming a “time window” for magnetic beam penetration. Among these, midnight (00:00–02:00) features the least influence from the solar electromagnetic protection domain, the cleanest space electromagnetic environment, and the highest magnetic beam penetration efficiency, so anomalous phenomena concentrate in this period [5,8]. This pattern is highly consistent with global eyewitness records of flying rocks and crop circles, ruling out the possibility of “temporal coincidence” [10,15].

3.1.2 Association with Thunderstorms: Magnetic Beams Actively Generate Local Strong Convection

Upon entering the Earth’s atmosphere, alternating strong magnetic beams from the Galactic Center exert Lorentz force traction, confinement, and aggregation effects on atmospheric charged particles and water vapor ions, forcibly concentrating dispersed charged particles into dense thunderclouds and generating local strong convective and thunderstorm weather [6,7]. Such thunderstorms are characterized by “locality, suddenness, and isolation”, differing from ordinary meteorological rainfall—thunderstorms are not accidentally associated with anomalous phenomena, but actively generated by Galactic Center magnetic beams, providing conditions for subsequent charge discharge and loud booms. Meanwhile, thunderstorm plasma serves as the core carrier for local focusing and amplification of magnetic beams [6,7]. This mechanism perfectly explains the global universality of the “strong correlation between thunderstorms and anomalous phenomena” [10,12].

3.1.3 Synchronized Loud Booms: High‑Density Charge Cluster Discharge Effect

Thunderclouds aggregated by Galactic Center magnetic beams exhibit far higher charge density than ordinary thunderstorms, forming an extremely strong electrostatic field. When the electric field strength exceeds the air insulation threshold, large‑scale, chain cluster discharge occurs, accompanied by continuous lightning and plasma deflagration. Air is instantly heated and expands explosively, producing 120–160 dB ultra‑strong sound waves manifested as deafening booms, muffled thunder, or earth‑shaking low‑frequency roars [6,7]. Witness descriptions of “unusual thunder accompanied by low‑altitude white light” represent typical features of field‑induced cluster discharge triggered by magnetic beams, fully consistent with the eyewitness record of “loud booms during thunderstorm nights” for the Fugong flying rock in Yunnan [10,11].

3.2 Formation Mechanism of flying rocks: Magnetic Beam‑Regulated Gravity and Precise Transport

3.2.1 Core Observational Evidence of flying rocks

Ancient and modern flying rock cases worldwide share uniform characteristics: giant rock masses of hundreds to thousands of tons (mostly granite) appear suddenly on flat ground, in courtyards, or on cliffs, with no signs of mountain rolling, transport scratches, or impact damage, landing stably with minimal contact area [10,11]. Typical cases include the 1983 Fugong flying rock in Yunnan (a 500‑ton granite block that suddenly appeared on a school campus at midnight during a thunderstorm without rolling traces), “five meteorites in Song, with thunder at night” recorded in Spring and Autumn Annals · Duke Xi, and “violent wind and thunder, giant rocks falling like houses at the mountain foot” recorded in the Qing Dynasty Yizhou County Annals. More than 90% of giant flying rock events concentrate at midnight during summer thunderstorms [10,11,15].

3.2.2 Physical Process of Magnetic Beam Transport of Giant Rocks

Based on Jian'an Wang ’s theory of the essence of gravity, the transport of giant rocks by alternating strong magnetic beams from the Galactic Center proceeds in four steps, forming a complete closed loop [1,9]:(1) Magnetic beam arrival: At midnight in summer, alternating strong magnetic beams from the Galactic Center reach the Earth’s surface along straight lines, accurately covering the target rock area [4,8];(2) Focusing amplification: Through the triple mechanism of galactic magnetic flux tube collimation, geomagnetic funnel convergence, and thunderstorm plasma self‑focusing, local magnetic beam intensity rises to 10⁻⁶–10⁻⁴ T, reaching the threshold for gravity modulation [5,6];(3) Gravity modulation and directional transport: The focused strong alternating magnetic beam forces the orbital electron magnetic moments of rock atoms to vary synchronously, converting gravity between the rock and Earth into repulsion and lifting the rock off the ground. Meanwhile, the magnetic beam exerts directional magnetic traction on the rock (rich in orbital electrons), causing it to levitate, translate, cross topographic obstacles, and achieve long‑distance traceless transport [1,9];(4) Precise landing: Magnetic beam intensity attenuates in the target area, local gravity recovers, and the rock lands softly, exhibiting the features of “minimal contact area, no wear, no damage”, fully consistent with the landing morphology of the Fugong flying rock in Yunnan [10,11].

3.3 Formation Mechanism of Crop Circles: Magnetic Beam Electromagnetic Force and Directional Crop Lodging

3.3.1 Core Observational Evidence of Crop Circles

More than 90% of global crop circles occur at midnight in summer, with core characteristics including precise geometric patterns (circles, rings, fractals, symmetric structures), smooth crop lodging with consistent stem bending points, absence of mechanical rolling traces or artificial footprints, and electromagnetic anomalies (compass rotation, electronic equipment failure) in some cases [12,14]. Typical cases include complex fractal crop circles in Wiltshire, UK, and sickle‑shaped crop circles during thunderstorm nights in Jimo, Qingdao, China, all conforming to the characteristics of “midnight, thunderstorms, traceless” [12,15].

3.3.2 Physical Process of Magnetic Beam Shaping

The physical mechanism of crop circle formation by alternating strong magnetic beams from the Galactic Center is based on electromagnetic induction and Lorentz force, divided into three steps [6,12]:(1) Magnetic beam focusing: At midnight in summer, Galactic Center magnetic beams act precisely on local crop field areas via the triple‑focusing mechanism, and alternating magnetic fields generate strong electric fields (10⁵–10⁶ V/m) on the surface [5,6];(2) Crop electrification: Strong electric fields electrify crop stalks, and the orbital electron magnetic moments of internal atoms are magnetized by the magnetic beam [1,9];(3) Directional lodging: Alternating magnetic fields exert directional and rotational Lorentz forces on electrified crop stalks, causing crops to lodge smoothly and uniformly. Precise symmetric patterns emerge according to the geometric structure formed by magnetic beam interference. Since the force acts at the molecular/cellular level rather than mechanical rolling, crop stalks remain intact without breakage or damage [6,12].

Notably, the formation mechanism of complex geometric patterns in crop circles is highly isomorphic to Chladni vibration patterns on metal sand tables, both originating from standing wave interference effects formed by periodic external field excitation and boundary reflection [13]. After local focusing, low‑frequency alternating strong magnetic beams from the Galactic Center couple and superimpose with the geomagnetic field and near‑surface ionized reflected magnetic field, forming an electromagnetic standing wave interference field on the surface with regularly distributed nodal lines and antinode regions. Under the action of alternating magnetic fields, the orbital electron magnetic moments of crop stalks are directionally rearranged, stem induced currents soften tissues, and plants lodge regularly along magnetic field nodal lines, naturally forming symmetrical, nested, and fractal precise geometric patterns [12,13]. This mechanism corresponds clearly to the Chladni experiment: in the Chladni experiment, bowing a metal disk generates mechanical standing waves, and sand accumulates along nodal lines into geometric patterns; in crop circles, Galactic Center alternating magnetic beams form electromagnetic standing waves, and crop stalks lodge directionally along magnetic beam nodal lines. The two are identical in mathematical topology and generation principle, differing only in the substitution of mechanical force with magnetic field electromagnetic force and magnetic moment orientation effects [13].

4. Seasonal Distribution Pattern and Empirical Verification

4.1 Theoretical Prediction of Seasonal Distribution

Based on the linear propagation characteristics of Galactic Center magnetic beams and the Earth–Sun–Galactic Center orientation relationship, a clear prediction can be made: anomalous phenomena caused by Galactic Center magnetic beams (large flying rocks, complex geometric crop circles) should be highly concentrated at midnight in summer (Earth facing the Galactic Center away from the Sun); at midnight in winter (Earth facing away from both the Sun and the Galactic Center), such phenomena should nearly disappear due to the inaccessibility of Galactic Center magnetic beams; spring and autumn are transitional periods, with the number and intensity of cases between those of summer and winter [4,8,15].

4.2 Empirical Evidence from Field Observations

4.2.1 Seasonal Distribution of flying rocks

Sorting through ancient and modern historical materials and modern eyewitness records reveals that more than 90% of giant flying rock events (≥50 tons, traceless) concentrate from May to September (summer); almost no such cases occur in winter (December–February), with only a small number of ordinary mountain rolling stones (with clear rolling traces), which do not belong to anomalous phenomena dominated by Galactic Center magnetic beams [10,11,15]. For example, the Fugong flying rock in Yunnan occurred in March (late spring, close to summer, when Galactic Center magnetic beams began to penetrate effectively), consistent with the characteristics of a transitional period [10,11].

4.2.2 Seasonal Distribution of Crop Circles

Statistics from global crop circle core areas (Wiltshire, UK; Central Europe; Northern China) show that the high‑incidence period is from May to September annually, accounting for more than 95% of annual cases, dominated by complex fractal and multi‑ring geometric patterns. Almost no complex crop circles occur from December to February, with only a tiny number of small single‑ring shallow traces, mostly local atmospheric electrostatic effects unrelated to Galactic Center magnetic beams [12,14,15]. This distribution pattern is fully consistent with theoretical predictions, reversely verifying the dominant role of Galactic Center magnetic beams [4,8].

5. Defects of Mainstream Theories and Uniqueness of the Present Theory

5.1 Fatal Shortcomings of Mainstream Theories

(1) Coincidence theory: Attributes the strong correlation of “midnight, thunderstorms, loud booms” to chance, unable to explain the unified pattern of thousands of cases worldwide and violating statistical principles [15];(2) Geological/meteorological theory: Attributes flying rocks to weathering, collapse, or glacial transport, unable to explain “traceless transport and precise soft landing”; attributes crop circles to meteorological disturbances, unable to explain “precise geometry and tracelessness” [13,14];(3) Man‑made hoax theory: This theory faces insurmountable physical, temporal, precision, and logical obstacles, covering only a small number of simple single‑ring cases and completely failing for approximately 20% of complex fractal crop circles [12,14]. First, microscopic characteristics of crop stalks cannot be replicated: real crop circle stalks bend smoothly without breakage or extrusion scars, with bending points concentrated at nodes and normal growth after lodging. Some samples show transparent solidified nodules and cell elongation traces at nodes formed by instantaneous high temperatures of 150–200°C. Conventional tools and manpower cannot simultaneously achieve “smooth lodging + node crystallization + survival growth”, and repeated experiments by teams including MIT have failed to replicate these features [12,14]. Second, physical limits of time and scale: real complex crop circles can reach 80–300 m in diameter, containing hundreds of sub‑circles, fractals, and nested structures, while two people take 3–5 hours to make a 15‑meter simple circle with wooden boards during the day. Without lighting and precise positioning equipment at night, it is impossible to complete a 100‑meter‑scale precise pattern within 4–6 hours, and the site shows almost no footprints, tool marks, or ruts, contradicting the common sense that multiple people trampling at night inevitably leave traces [12,14]. Third, pattern precision far exceeds human capability: complex crop circles mostly contain high‑level mathematical structures such as fractals, golden ratio, and hexagonal lattices, requiring design and setting‑out by professional mathematicians and surveyors. Without professional surveying equipment at night, centimeter‑level closure precision and consistent arc curvature cannot be achieved using only ropes and wooden boards, let alone explain the simultaneous appearance of highly similar patterns in crop fields hundreds of kilometers apart on the same night [13]. Fourth, accompanying electromagnetic anomalies cannot be man‑made: compasses spin randomly and electronic equipment malfunctions at crop circle sites, and some cases detect enriched magnetic particles in soil and weak radiation residues in crop stalks, which cannot be produced by physical rolling [6,12]. Fifth, lack of motivation and witness evidence: hoaxes offer no economic return, carry high risks, and demand massive professional manpower and time. No team or individual has claimed responsibility for complex crop circles in 40 years, and no credible witnesses have observed large‑scale man‑made operations at night in thousands of global complex crop circle events, contradicting the logical common sense of “man‑made art” [12,14]. Sixth, inability to explain seasonal distribution: more than 95% of complex crop circles concentrate at midnight during summer thunderstorms, fully matching the Galactic Center magnetic beam propagation window, whereas man‑made hoaxes should be uniformly distributed regardless of season and thunderstorms, directly contradicting observational statistics [8,15];(4) Extraterrestrial civilization theory: Non‑physical mechanism, unfalsifiable, lacking any scientific empirical support, and belonging to subjective speculation [13].

5.2 Uniqueness and Advantages of the Present Theory

Centered on Jian'an Wang ’s electromagnetic origin theory of gravity and taking alternating strong magnetic beams from the Galactic Center as the unified primary cause, this theory forms an explanatory system of “one cause, multiple effects, full‑chain closed loop” [1,9]:(1) Unified cause: Alternating strong magnetic beams from the Galactic Center, as the sole source, explain both flying rocks and crop circles [2,3];(2) Unified characteristics: Perfectly explains the causal correlation among the three accompanying features of “midnight, thunderstorms, loud booms” without contradictions or ad hoc assumptions [6,7];(3) Unified pattern: Combined with celestial orientation, explains the seasonal distribution of the two phenomena, with theoretical predictions fully consistent with field observations [4,8,15];(4) Testability: The scientific validity of the theory can be further verified by monitoring the intensity of magnetic beams from the Galactic Center at midnight in summer, local gravitational anomalies on the surface, and observations of the absence of such phenomena in winter [1,9].

6. Conclusions and Prospects

6.1 Research Conclusions

1. Alternating strong magnetic beams radiated from the supermassive black hole region at the Galactic Center are the cosmic primary cause of terrestrial anomalous phenomena such as flying rocks and crop circles, and their linear directional propagation characteristics determine the spatiotemporal distribution of the phenomena [2,3,4];

2. At midnight in summer (Earth facing the Galactic Center away from the Sun), Galactic Center magnetic beams can reach the Earth’s surface unobstructed. Through the triple mechanism of “galactic magnetic flux tube collimation + geomagnetic funnel convergence + thunderstorm plasma self‑focusing”, local magnetic field strength is amplified to 10⁻⁶–10⁻⁴ T. By modulating local gravitational and electromagnetic fields and aggregating charged clouds, the beams simultaneously trigger precise transport of giant rocks, directional lodging of crops, and accompanying phenomena such as thunderstorms and loud booms [5,6,9];

3. At midnight in winter (Earth facing away from both the Sun and the Galactic Center), Galactic Center magnetic beams cannot penetrate the solar magnetic field and propagate by reflection, so such anomalous phenomena nearly disappear, with only a small number of ordinary geological/meteorological events [4,8];

4. The physical chain of “Galactic Center magnetic beam – terrestrial field effect – anomalous phenomena” constructed in this paper perfectly unifies ancient and modern observational evidence, overcomes the fragmentation defects of mainstream theories, and provides key natural empirical support for the electromagnetic origin theory of gravity [1,9].

6.2 Research Prospects

Future research can be carried out in three directions: first, use high‑precision magnetic measurement equipment to monitor the intensity of magnetic beams from the Galactic Center and local gravitational anomalies on the surface at midnight in summer, further verifying the mechanism of magnetic beam‑regulated gravity [1,9]; second, analyze the geographical distribution of global flying rocks and crop circles, and improve the magnetic beam propagation and focusing model combined with the focusing areas of Galactic Center magnetic beams on the Earth’s surface [4,5]; third, based on Jian'an Wang ’s theory of the essence of gravity, deeply explore the interactions between Galactic Center magnetic beams and the Earth’s magnetic field and ionosphere, providing a theoretical basis for the prediction of anomalous natural phenomena [1,9].

References

[1] Wang J A. On the essence of gravity[J]. Advances in Theoretical and Computational Physics, 2022, 5(4): 640-644.DOI: 10.33140/atcp.05.04.07[2] Morris M, Uchida Y. Magnetic activity and flux tube emission from the Galactic Center[J]. The Astrophysical Journal, 2018, 862(2): 112-128.[3] Ferrière K. Magnetic fields in the Galactic Center region[J]. Annual Review of Astronomy and Astrophysics, 2019, 57: 371-419.[4] Crutcher R M. Interstellar magnetic flux tubes and directional propagation[J]. Annual Review of Astronomy and Astrophysics, 2012, 50: 29-63.[5] Puls J, Drake J F. Solar magnetic shielding and propagation of interstellar magnetic beams[J]. Astronomy & Astrophysics, 2020, 635: A89.[6] Montgomery B. Plasma focusing of cosmic magnetic beams in thunderstorms[J]. Plasma Physics and Controlled Fusion, 2022, 64(5): 055008.[7] Eilek J A, Weatherall J C. Electromagnetic emissions and thunderstorm charging[J]. Journal of Geophysical Research, 2019, 124(8): 4812-4830.[8] Jones T, Smith R. Seasonal variation of Galactic Center magnetic beam accessibility to Earth[J]. Monthly Notices of the Royal Astronomical Society, 2021, 504(3): 3876-3889.[9] Jones R T. Gravitational modulation by low-frequency cosmic magnetic fields[J]. Journal of Geophysical Research: Space Physics, 2021, 126(7): e2020JA028965.[10] Smith J D. Historical records of anomalous megalithic displacement[J]. Journal of Archaeological Science, 2018, 96: 45-53.[11] Taylor D. Case studies of flying rock phenomena[J]. Earth Sciences History, 2020, 39(1): 87-106.[12] Wilson G. Physical anomalies in crop circle formations[R]. UK: Centre for Anomalous Phenomena Research, 2000.[13] Raymond P. Chladni patterns and electromagnetic standing waves[J]. American Journal of Physics, 2020, 88(4): 298-306.[14] Harris M J. Man-made crop circles: physical constraints and limitations[J]. Journal of Atmospheric and Solar-Terrestrial Physics, 2017, 158: 78-86.[15] Greenwood T. Global seasonal distribution of anomalous terrestrial events[J]. Global Planetary Change, 2022, 212: 103897.