An Independent Repository of Observed Spherical and Elongated Aerial Objects

BugaSphere provides objective documentation of unidentified aerial phenomena through the lens of sensor data, aerospace standards, and verifiable physical descriptions. We categorize observed anomalies with scientific rigor, excluding speculative or non-terrestrial origin claims.

Explore Documented Cases Technical Analysis

The Scope of Documentation

BugaSphere is an investigative platform dedicated to the recording and categorization of objects that deviate from known aeronautical behavior. Our focus is restricted to objects exhibiting specific geometric regularities—primarily metallic spheres, orbs, and elongated "tic-tac" shaped structures.

Unlike traditional reporting sites, BugaSphere emphasizes multi-domain presence. This includes objects observed transiting between air, sea, and near-space environments. Each entry in our database requires at least two corroborating data points, such as radar tracking and optical confirmation, or multiple independent professional witness accounts (e.g., commercial or military aviators).

Key Focus Areas

Atmospheric Metallic Spheres
Trans-medium Elongated Objects
High-Velocity Sub-Orbital Anomalies
Radar-Validated Aerodynamic Deviations
Space Situational Awareness (SSA) Gaps

Notable Documented Incidents

Confirmed Sensor Detection

Indiana "Sky-Radome" Spherical Object

Observation: A highly reflective, perfectly spherical object estimated at 10 meters in diameter. Observed hovering at approximately 30,000 feet before executing a vertical ascent exceeding Mach 3.

Confirmed: Ground-based X-band radar tracking synchronized with pilot visual contact. No thermal signature detected by FLIR sensors despite high-velocity movement.

Unknown: Method of propulsion. The object lacked wings, control surfaces, and any visible exhaust plume or heat displacement.

Multi-Source Verification

Hawara Metallic "Tic-Tac"

Observation: An elongated, matte-white cylinder with rounded ends, approximately 14 meters in length. Observed over the Mediterranean near the Hawara district.

Confirmed: Sudden descent from 60,000 feet to sea level in less than two seconds. Object displayed "active avoidance" maneuvers when approached by civilian aircraft.

Unknown: Internal structure and material composition. Despite proximity, no rivets, seams, or windows were documented.

Astrophysical Data Pending

3I/ATLAS Interstellar Candidate

Observation: A highly elongated, tumbling object detected on a hyperbolic trajectory entering the solar system from the direction of Lyra.

Confirmed: Non-gravitational acceleration was recorded as it passed the perihelion. Spectral analysis indicates a metallic-rich surface with high albedo.

Unknown: Classification as a natural fragment versus a structural object. Data remains insufficient to confirm if the acceleration was due to outgassing or alternative mechanics.

Observed Object Characteristics

Analysis of over 400 verified reports reveals a recurring set of physical and behavioral traits. These data points serve as the foundation for our classification system.

Geometric Morphology

Predominantly spherical, ovoid, or cylindrical. Surfaces are typically described as metallic (polished chrome) or matte white. Absence of traditional aerodynamic features (rudders, ailerons, or engines).

Kinetic Capabilities

Instantaneous acceleration from hover to hypersonic speeds. Ability to remain stationary in high-altitude jet streams (70+ knots) without visible pitch or bank adjustments.

Electromagnetic Signature

Frequent interference with L-band radar. High-frequency RF emissions often detected in the 2.9–3.0 GHz range during proximity events. Variable visibility on Infrared (IR).

Characteristic	Observed Frequency	Analytical Confidence
Metallic/Reflective Surface	68%	High (Optical/Sensor)
No Visible Propulsion	92%	High (High-Res FLIR)
Trans-Medium Capability	14%	Moderate (Radar/Sonar)
Radio Frequency Emission	31%	Low (Signal Noise)

Scientific & Analytical Context

BugaSphere operates within the intersections of Aerospace Engineering and Atmospheric Science. A primary challenge in this field is distinguishing genuine anomalies from misidentified human-made technology, orbital debris, or natural phenomena.

We account for sensor limitations—such as "ghosting" in radar arrays and parallax errors in optical recording. Many cases in our archive remain "Unresolved" precisely because the data does not meet the threshold for a definitive hardware identification. We maintain a strict policy of data-first analysis: if the sensor data is contradictory, the case is marked as Disputed.

"The absence of a visible heat signature during hypersonic transit challenges our current understanding of fluid dynamics and thermal friction."

Methodology & Editorial Standards

To maintain high credibility, BugaSphere adheres to a rigorous evidentiary framework. Every case file undergoes a three-stage review process before public release.

1. Authentication: Validation of source credentials and timestamped metadata. Verification of sensor calibration records where available.
2. Triangulation: Cross-referencing observations with known satellite tracks, weather balloon launches, and commercial flight paths.
3. Classification: Objects are categorized as Prosaic (explained), Insufficient Data (unknown), or Anomalous (sensor-verified behavior exceeding known limits).

BugaSphere does not accept anonymous submissions without secondary verifiable data. We do not publish accounts involving telepathy, abduction claims, or speculative origins.