Fix GA tracking: use G-49MPEVQZG3 for GitHub Pages (Property 490566060)

Author: matthewsmawfield

manuscript-rinex.md

@@ -4,7 +4,7 @@
 **Version:** v0.3 (Kathmandu)  
 **Date:** First published: 9 December 2025 · Last updated: 17 December 2025  
 **DOI:** 10.5281/zenodo.17860166  
-**Generated:** 2025-12-31  
+**Generated:** 2026-01-03  
 **Paper Series:** TEP-GNSS Paper 3 (Raw RINEX Validation)
 
 ---
@@ -123,15 +123,15 @@ To date, this hypothesis has been tested through two comprehensive analyses:
 
     Analysis of precise orbit and clock products from three independent analysis centers (CODE, ESA, IGS) found exponential decay signatures with λ ≈ 3,500–4,500 km. The consistency across centers (R² > 0.92) disfavors center-specific software artifacts.
 
-    [→ View Paper 1](https://matthewsmawfield.github.io/TEP-GNSS/)
+    [→ View Paper 1 (TEP-GNSS)](https://matthewsmawfield.github.io/TEP-GNSS/)
 
 **Experimental Section:**
 
 ### Paper 2: 25-Year Temporal Stability
 
     A longitudinal study of 25 years of CODE data (2000-2025) found that these signatures are not confined to a transient interval. They persist across solar cycles, hardware generations, and reference frame updates, exhibiting statistically significant coupling with orbital dynamics.
 
-    [→ View Paper 2](https://matthewsmawfield.github.io/TEP-GNSS-II/)
+    [→ View Paper 2 (TEP-GNSS-II)](https://matthewsmawfield.github.io/TEP-GNSS-II/)
 
 ### 1.3 The Processing Artifact Objection
 
@@ -3658,11 +3658,11 @@ Wcisło, P., et al. (2018). New bounds on dark matter coupling from a global net
 
 ### TEP-GNSS Research Series
 
-Smawfield, M. L. (2025). Global Time Echoes: Distance-Structured Correlations in GNSS Clocks. *Preprint*. DOI: [10.5281/zenodo.17127229](https://doi.org/10.5281/zenodo.17127229). Site: [matthewsmawfield.github.io/TEP-GNSS/](https://matthewsmawfield.github.io/TEP-GNSS/)
+Smawfield, M. L. (2025). Global Time Echoes: Distance-Structured Correlations in GNSS Clocks. *Preprint*. DOI: [10.5281/zenodo.17127229](https://doi.org/10.5281/zenodo.17127229). Site: [TEP-GNSS](https://matthewsmawfield.github.io/TEP-GNSS/)
 
-Smawfield, M. L. (2025). Global Time Echoes: 25-Year Temporal Evolution of Distance-Structured Correlations in GNSS Clocks. *Preprint*. DOI: [10.5281/zenodo.17517141](https://doi.org/10.5281/zenodo.17517141). Site: [matthewsmawfield.github.io/TEP-GNSS-II/](https://matthewsmawfield.github.io/TEP-GNSS-II/)
+Smawfield, M. L. (2025). Global Time Echoes: 25-Year Temporal Evolution of Distance-Structured Correlations in GNSS Clocks. *Preprint*. DOI: [10.5281/zenodo.17517141](https://doi.org/10.5281/zenodo.17517141). Site: [TEP-GNSS-II](https://matthewsmawfield.github.io/TEP-GNSS-II/)
 
-Smawfield, M. L. (2025). Global Time Echoes: Raw RINEX Validation of Distance-Structured Correlations in GNSS Clocks. *Preprint*. DOI: [10.5281/zenodo.17860166](https://doi.org/10.5281/zenodo.17860166). PDF: [Download](https://zenodo.org/records/17860166/files/Smawfield_2025_GlobalTimeEchoes_Rinex_v0.4_Kathmandu.pdf?download=1). Site: [matthewsmawfield.github.io/TEP-GNSS-RINEX/](https://matthewsmawfield.github.io/TEP-GNSS-RINEX/) (this paper)
+Smawfield, M. L. (2025). Global Time Echoes: Raw RINEX Validation of Distance-Structured Correlations in GNSS Clocks. *Preprint*. DOI: [10.5281/zenodo.17860166](https://doi.org/10.5281/zenodo.17860166). PDF: [Download](https://zenodo.org/records/17860166/files/Smawfield_2025_GlobalTimeEchoes_Rinex_v0.4_Kathmandu.pdf?download=1). Site: [TEP-GNSS-RINEX](https://matthewsmawfield.github.io/TEP-GNSS-RINEX/) (this paper)
 
 Smawfield, M. L. (2025). The Temporal Equivalence Principle: A Bi-Metric Framework for Gravitational Time Dilation. *Preprint*. DOI: [10.5281/zenodo.16921911](https://doi.org/10.5281/zenodo.16921911). PDF: [Download](https://zenodo.org/records/16921911/files/Smawfield_2025_TemporalEquivalencePrinciple_Preprint_v0.6_Jakarta.pdf?download=1). (companion theory paper)
 
@@ -3724,11 +3724,11 @@ Klobuchar, J. A. (1987). Ionospheric time-delay algorithm for single-frequency G
 
 #### Related Projects
 
-        - Paper 1 (Multi-Center): [matthewsmawfield.github.io/TEP-GNSS/](https://matthewsmawfield.github.io/TEP-GNSS/)
+        - Paper 1 (Multi-Center): [TEP-GNSS](https://matthewsmawfield.github.io/TEP-GNSS/)
 
-        - Paper 2 (25-Year CODE): [matthewsmawfield.github.io/TEP-GNSS-II/](https://matthewsmawfield.github.io/TEP-GNSS-II/)
+        - Paper 2 (25-Year CODE): [TEP-GNSS-II](https://matthewsmawfield.github.io/TEP-GNSS-II/)
 
-        - Paper 3 (Raw RINEX): [matthewsmawfield.github.io/TEP-GNSS-RINEX/](https://matthewsmawfield.github.io/TEP-GNSS-RINEX/) (this paper)
+        - Paper 3 (Raw RINEX): [TEP-GNSS-RINEX](https://matthewsmawfield.github.io/TEP-GNSS-RINEX/) (this paper)
 
 #### Code Repositories
 

site/components/references.html

@@ -26,11 +26,11 @@ <h3>References</h3>
 
 <h3>TEP-GNSS Research Series</h3>
 
-<p class="ref-item">Smawfield, M. L. (2025). Global Time Echoes: Distance-Structured Correlations in GNSS Clocks. <em>Preprint</em>. DOI: <a href="https://doi.org/10.5281/zenodo.17127229">10.5281/zenodo.17127229</a>. Site: <a href="https://matthewsmawfield.github.io/TEP-GNSS/">matthewsmawfield.github.io/TEP-GNSS/</a></p>
+<p class="ref-item">Smawfield, M. L. (2025). Global Time Echoes: Distance-Structured Correlations in GNSS Clocks. <em>Preprint</em>. DOI: <a href="https://doi.org/10.5281/zenodo.17127229">10.5281/zenodo.17127229</a>. Site: <a href="https://matthewsmawfield.github.io/TEP-GNSS/">TEP-GNSS</a></p>
 
-<p class="ref-item">Smawfield, M. L. (2025). Global Time Echoes: 25-Year Temporal Evolution of Distance-Structured Correlations in GNSS Clocks. <em>Preprint</em>. DOI: <a href="https://doi.org/10.5281/zenodo.17517141">10.5281/zenodo.17517141</a>. Site: <a href="https://matthewsmawfield.github.io/TEP-GNSS-II/">matthewsmawfield.github.io/TEP-GNSS-II/</a></p>
+<p class="ref-item">Smawfield, M. L. (2025). Global Time Echoes: 25-Year Temporal Evolution of Distance-Structured Correlations in GNSS Clocks. <em>Preprint</em>. DOI: <a href="https://doi.org/10.5281/zenodo.17517141">10.5281/zenodo.17517141</a>. Site: <a href="https://matthewsmawfield.github.io/TEP-GNSS-II/">TEP-GNSS-II</a></p>
 
-<p class="ref-item">Smawfield, M. L. (2025). Global Time Echoes: Raw RINEX Validation of Distance-Structured Correlations in GNSS Clocks. <em>Preprint</em>. DOI: <a href="https://doi.org/10.5281/zenodo.17860166">10.5281/zenodo.17860166</a>. PDF: <a href="https://zenodo.org/records/17860166/files/Smawfield_2025_GlobalTimeEchoes_Rinex_v0.4_Kathmandu.pdf?download=1">Download</a>. Site: <a href="https://matthewsmawfield.github.io/TEP-GNSS-RINEX/">matthewsmawfield.github.io/TEP-GNSS-RINEX/</a> (this paper)</p>
+<p class="ref-item">Smawfield, M. L. (2025). Global Time Echoes: Raw RINEX Validation of Distance-Structured Correlations in GNSS Clocks. <em>Preprint</em>. DOI: <a href="https://doi.org/10.5281/zenodo.17860166">10.5281/zenodo.17860166</a>. PDF: <a href="https://zenodo.org/records/17860166/files/Smawfield_2025_GlobalTimeEchoes_Rinex_v0.4_Kathmandu.pdf?download=1">Download</a>. Site: <a href="https://matthewsmawfield.github.io/TEP-GNSS-RINEX/">TEP-GNSS-RINEX</a> (this paper)</p>
 
 <p class="ref-item">Smawfield, M. L. (2025). The Temporal Equivalence Principle: A Bi-Metric Framework for Gravitational Time Dilation. <em>Preprint</em>. DOI: <a href="https://doi.org/10.5281/zenodo.16921911">10.5281/zenodo.16921911</a>. PDF: <a href="https://zenodo.org/records/16921911/files/Smawfield_2025_TemporalEquivalencePrinciple_Preprint_v0.6_Jakarta.pdf?download=1">Download</a>. (companion theory paper)</p>
 
@@ -94,9 +94,9 @@ <h3>Contact Information</h3>
 
     <h4>Related Projects</h4>
     <ul>
-        <li>Paper 1 (Multi-Center): <a href="https://matthewsmawfield.github.io/TEP-GNSS/">matthewsmawfield.github.io/TEP-GNSS/</a></li>
-        <li>Paper 2 (25-Year CODE): <a href="https://matthewsmawfield.github.io/TEP-GNSS-II/">matthewsmawfield.github.io/TEP-GNSS-II/</a></li>
-        <li>Paper 3 (Raw RINEX): <a href="https://matthewsmawfield.github.io/TEP-GNSS-RINEX/">matthewsmawfield.github.io/TEP-GNSS-RINEX/</a> (this paper)</li>
+        <li>Paper 1 (Multi-Center): <a href="https://matthewsmawfield.github.io/TEP-GNSS/">TEP-GNSS</a></li>
+        <li>Paper 2 (25-Year CODE): <a href="https://matthewsmawfield.github.io/TEP-GNSS-II/">TEP-GNSS-II</a></li>
+        <li>Paper 3 (Raw RINEX): <a href="https://matthewsmawfield.github.io/TEP-GNSS-RINEX/">TEP-GNSS-RINEX</a> (this paper)</li>
     </ul>
 
     <h4>Code Repositories</h4>

site/components/section_1_introduction.html

@@ -13,13 +13,13 @@ <h2>1.2 The Empirical Foundation</h2>
 <div class="experimental-section">
     <h3>Paper 1: Multi-Center Validation</h3>
     <p>Analysis of precise orbit and clock products from three independent analysis centers (CODE, ESA, IGS) found exponential decay signatures with λ ≈ 3,500–4,500 km. The consistency across centers (R² > 0.92) disfavors center-specific software artifacts.</p>
-    <p><a href="https://matthewsmawfield.github.io/TEP-GNSS/">→ View Paper 1</a></p>
+    <p><a href="https://matthewsmawfield.github.io/TEP-GNSS/">→ View Paper 1 (TEP-GNSS)</a></p>
 </div>
 
 <div class="experimental-section">
     <h3>Paper 2: 25-Year Temporal Stability</h3>
     <p>A longitudinal study of 25 years of CODE data (2000-2025) found that these signatures are not confined to a transient interval. They persist across solar cycles, hardware generations, and reference frame updates, exhibiting statistically significant coupling with orbital dynamics.</p>
-    <p><a href="https://matthewsmawfield.github.io/TEP-GNSS-II/">→ View Paper 2</a></p>
+    <p><a href="https://matthewsmawfield.github.io/TEP-GNSS-II/">→ View Paper 2 (TEP-GNSS-II)</a></p>
 </div>
 
 <h3>1.3 The Processing Artifact Objection</h3>

site/index.html

@@ -7,10 +7,10 @@
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-    <title>Global Time Echoes: Raw RINEX | Matthew Lukin Smawfield</title>
+    <title>Global Time Echoes: Raw RINEX</title>
 
     <!-- Primary Meta Tags -->
-    <meta name="title" content="Global Time Echoes: Raw RINEX | Matthew Lukin Smawfield">
+    <meta name="title" content="Global Time Echoes: Raw RINEX">
     <meta name="description" content="Raw RINEX validation via Single Point Positioning. Analysis of 539 stations over 3 years (1.17B pair-samples) confirms TEP signatures exist in unprocessed data.">
     <meta name="keywords" content="TEP-GNSS, RINEX, raw GNSS, Single Point Positioning, SPP, RTKLIB, temporal equivalence principle, phase coherence, CDDIS, IGS, raw observations, clock bias, pseudorange, carrier phase, geodesy, satellite navigation, empirical validation, independent confirmation, clock synchronization, relativistic effects, modified gravity">
     <meta name="author" content="Matthew Lukin Smawfield">
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