Resonance Profiles — RTT/1
Profile Dictionary for the Dimensional Resonance Scanner (DRS)#
Resonance profiles define the canonical shapes, harmonic behaviors, amplification geometries, vector flows, and resonance‑field interactions across conceptual, computational, physical, and dimensional regimes.
These profiles are used by:
- DRS‑Scan
- DRS‑Frequency
- DRS‑Field
- DRS‑Vector
- DRS‑Amplify
- DRS‑Stabilize
Each profile includes:
- definition
- resonance signature
- frequency behavior
- field behavior
- vector behavior
- amplification geometry
- stability envelope
- canonical DRS output pattern
1. Resonance Signature Profiles#
Profile: Conceptual Resonance Signature#
Definition
A resonance onset formed by conceptual coherence and low‑frequency conceptual structures.
Resonance Signature
- low magnitude
- stable polarity
- shallow curvature
Frequency Behavior
- low harmonic sensitivity
- narrow frequency band
Field Behavior
- narrow resonance field
- shallow ridge
Vector Behavior
- low vector sensitivity
Amplification Geometry
- shallow amplification zone
Stability Envelope
- high stability
Profile: Dimensional Resonance Signature#
Definition
A resonance onset formed by dimensional constraints and high‑sensitivity harmonic polarity.
Resonance Signature
- medium‑high magnitude
- dimensional polarity
- medium curvature
Frequency Behavior
- medium harmonic sensitivity
- wide frequency band
Field Behavior
- medium‑wide field
- dimensional ridge
Vector Behavior
- medium vector sensitivity
Amplification Geometry
- medium amplification depth
Stability Envelope
- medium stability
2. Resonance Frequency Profiles#
Profile: Harmonic Resonance Frequency#
Definition
A stable harmonic resonance frequency formed by computational structures.
Resonance Signature
- medium magnitude
- harmonic polarity
- medium curvature
Frequency Behavior
- stable harmonic band
- low drift sensitivity
Field Behavior
- narrow field
- harmonic ridge
Vector Behavior
- low vector sensitivity
Amplification Geometry
- shallow amplification zone
Stability Envelope
- medium‑high stability
Profile: Frequency Inversion#
Definition
A resonance frequency formed when stability decreases in one regime while increasing in another.
Resonance Signature
- medium‑high magnitude
- inversion polarity
- polarity flip
Frequency Behavior
- inversion band
- high drift sensitivity
Field Behavior
- medium field width
- inversion curvature
Vector Behavior
- high vector sensitivity
Amplification Geometry
- medium‑deep amplification zone
Stability Envelope
- medium‑low stability
3. Resonance Field Profiles#
Profile: Multi‑Regime Resonance Field#
Definition
A multi‑regime resonance tensor binding resonance pathways across R1–R3 or R1–R4.
Resonance Signature
- very high magnitude
- tensor polarity
- high curvature
Frequency Behavior
- wide harmonic band
- multi‑regime sensitivity
Field Behavior
- wide resonance field
- tensor topology
Vector Behavior
- high vector sensitivity
Amplification Geometry
- deep amplification zone
Stability Envelope
- medium‑high stability
Profile: Dimensional Resonance Constraint#
Definition
Dimensional constraints influence computational resonance pathways.
Resonance Signature
- high magnitude
- dimensional → computational polarity
- medium‑high curvature
Frequency Behavior
- medium harmonic band
- dimensional sensitivity
Field Behavior
- medium‑wide field
- tensor trough
Vector Behavior
- medium vector sensitivity
Amplification Geometry
- medium‑deep amplification zone
Stability Envelope
- medium stability
4. Resonance Amplification Profiles#
Profile: Drift‑Amplified Resonance#
Definition
Physical drift amplifies resonance curvature, forming a drift‑sensitive amplification zone.
Resonance Signature
- very high magnitude
- drift‑aligned polarity
- high curvature
Frequency Behavior
- high harmonic sensitivity
- drift‑wide band
Field Behavior
- wide drift field
- drift ridge
Vector Behavior
- very high vector sensitivity
Amplification Geometry
- deep amplification seam
Stability Envelope
- low stability
Profile: Stability‑Coherence Resonance Ridge#
Definition
Computational stability reduces coherence while physical stability increases resonance sensitivity.
Resonance Signature
- high magnitude
- coherence‑aligned polarity
- medium‑high curvature
Frequency Behavior
- medium harmonic band
- coherence sensitivity
Field Behavior
- medium‑wide field
- resonance ridge
Vector Behavior
- medium‑high vector sensitivity
Amplification Geometry
- medium‑deep amplification zone
Stability Envelope
- medium stability
5. Resonance Vector Profiles#
Profile: Cross‑Domain Resonance Vector#
Definition
A resonance vector formed between conceptual and dimensional regimes.
Resonance Signature
- high magnitude
- cross‑domain polarity
- medium‑high curvature
Frequency Behavior
- medium harmonic band
- cross‑domain sensitivity
Field Behavior
- wide field
- bridge topology
Vector Behavior
- high vector sensitivity
Amplification Geometry
- medium amplification depth
Stability Envelope
- medium‑high stability
Profile: Drift‑Sensitive Resonance Vector#
Definition
Physical drift amplifies resonance curvature, forming a drift‑sensitive resonance vector.
Resonance Signature
- very high magnitude
- drift polarity
- high curvature
Frequency Behavior
- high harmonic sensitivity
- drift‑wide band
Field Behavior
- wide drift field
- drift ridge
Vector Behavior
- very high vector sensitivity
Amplification Geometry
- deep amplification zone
Stability Envelope
- low stability
6. Canonical DRS Output Pattern#
{
"resonance_type": "vector",
"regime": "R1-R4",
"resonance_magnitude": 0.83,
"resonance_direction": "R1↔R4",
"resonance_curvature": 0.52,
"amplification_zone": 0.22,
"resonance_field": 0.69,
"envelope_boundary": 0.46
}Status#
- Version: 1.0
- Status: canon‑stable
- Category: rtt‑resonance
- Module Path:
/docs/rtt/Dimensional_Resonance_Scanner/