What are the most common chronal displacement tests performed on the Landscape Square table?

The Landscape Square table serves as a critical apparatus for investigating temporal anomalies. Among the most common chronal displacement tests performed upon it is the Temporal Echo Mapping (TEM). This procedure involves inducing a controlled chronal pulse and meticulously recording the "echo" or residual temporal signature across the table's surface. Analysts plot these signatures to map discontinuities and measure displacement vectors with precision.

Another fundamental test is the Phase-Locked Loop (PLL) Stability Analysis. Here, a stable chronal frequency is anchored to one quadrant of the Landscape Square. Researchers then attempt to induce displacement in another quadrant, monitoring how the system maintains or loses phase coherence. This test is paramount for assessing the inertial stability of localized time fields.

The Cross-Dimensional Resonance Scan (CDRS) is frequently employed to detect latent displacement. By sweeping a range of harmonic frequencies across the table's matrix, technicians can identify resonant peaks that indicate hidden chronal folds or tears. This non-invasive test is crucial for preliminary diagnostics.

Finally, the Controlled Decay Rate Observation (CDRO) measures how an artificially induced temporal displacement decays back to baseline. The Landscape Square's calibrated grid allows for exact measurement of the decay constant across different sectors, providing vital data on the ambient temporal drag and restoration forces within the testing environment. These standardized tests form the cornerstone of practical chronal mechanics research.