Astronomical interferometer
View article: Quantum Holographic Framework for Unidentified Anomalous Phenomena: From Schwinger Pair Production to Testable Gravitational Signatures
Quantum Holographic Framework for Unidentified Anomalous Phenomena: From Schwinger Pair Production to Testable Gravitational Signatures Open
## Abstract This paper presents a quantum holographic framework for Unidentified Anomalous Phenomena (UAP), proposing they result from coherent photon condensates that undergo localized Schwinger pair production. The model unifies quantum …
View article: Quantum Holographic Framework for Unidentified Anomalous Phenomena: From Schwinger Pair Production to Testable Gravitational Signatures
Quantum Holographic Framework for Unidentified Anomalous Phenomena: From Schwinger Pair Production to Testable Gravitational Signatures Open
## Abstract This paper presents a quantum holographic framework for Unidentified Anomalous Phenomena (UAP), proposing they result from coherent photon condensates that undergo localized Schwinger pair production. The model unifies quantum …
View article: Widefield pump-probe microscopy with coherent background subtraction by angle-compensated temporal shearing
Widefield pump-probe microscopy with coherent background subtraction by angle-compensated temporal shearing Open
Pump-probe microscopy enables label-free imaging of structural and chemical features of samples. However, signals in pump-probe microscopy are typically small and often must be measured in the presence of large backgrounds. As a result, ac…
View article: Integration of Optical Magnetic Field Contributions to the Faraday Effect into Fractal-Unified Field Theory: Enhanced Predictions for Phase Noise in Interferometers
Integration of Optical Magnetic Field Contributions to the Faraday Effect into Fractal-Unified Field Theory: Enhanced Predictions for Phase Noise in Interferometers Open
The Fractal-Unified Field Theory (F-UFT) unifies the Lorenz-gauge electromagnetic four-potential and gravitomagnetic vector potential as displacements in a relativistic fractal aether with Hausdorff dimension D ≈ 1.830 ± 0.008, yielding a …
View article: Evaluation of Periodic Nonlinear Error in a Directly Traceable Grating Interferometer
Evaluation of Periodic Nonlinear Error in a Directly Traceable Grating Interferometer Open
Periodic nonlinear error (PNE) is a key factor limiting the accuracy of displacement measurement instruments. For grating interferometers, which are widely used in high-precision displacement measurement, reliable characterization of PNE i…
View article: Widefield pump-probe microscopy with coherent background subtraction by angle-compensated temporal shearing
Widefield pump-probe microscopy with coherent background subtraction by angle-compensated temporal shearing Open
Pump-probe microscopy enables label-free imaging of structural and chemical features of samples. However, signals in pump-probe microscopy are typically small and often must be measured in the presence of large backgrounds. As a result, ac…
View article: Integration of Optical Magnetic Field Contributions to the Faraday Effect into Fractal-Unified Field Theory: Enhanced Predictions for Phase Noise in Interferometers
Integration of Optical Magnetic Field Contributions to the Faraday Effect into Fractal-Unified Field Theory: Enhanced Predictions for Phase Noise in Interferometers Open
The Fractal-Unified Field Theory (F-UFT) unifies the Lorenz-gauge electromagnetic four-potential and gravitomagnetic vector potential as displacements in a relativistic fractal aether with Hausdorff dimension D ≈ 1.830 ± 0.008, yielding a …
View article: In-series Multimode Interference Sensors and Fabry-Perot Interferometers for Enhanced Wavelength Shift Resolving Capabilities
In-series Multimode Interference Sensors and Fabry-Perot Interferometers for Enhanced Wavelength Shift Resolving Capabilities Open
We report on the development of a refractive index sensor obtained by using a singlemode-multimode-singlemode (SMS) structure and a Fabry-Perot interferometer (FPI) set into an in-series configuration. Due to the self-imaging phenomenon, t…
View article: In-series Multimode Interference Sensors and Fabry-Perot Interferometers for Enhanced Wavelength Shift Resolving Capabilities
In-series Multimode Interference Sensors and Fabry-Perot Interferometers for Enhanced Wavelength Shift Resolving Capabilities Open
We report on the development of a refractive index sensor obtained by using a singlemode-multimode-singlemode (SMS) structure and a Fabry-Perot interferometer (FPI) set into an in-series configuration. Due to the self-imaging phenomenon, t…
View article: Tolerance Analysis of Test Mass Alignment Errors for Space-Based Gravitational Wave Detection
Tolerance Analysis of Test Mass Alignment Errors for Space-Based Gravitational Wave Detection Open
Space-based gravitational wave detection imposes extremely high requirements on displacement measurement accuracy, with its core measurement components being laser interferometers and inertial sensors. The laser interferometers detect grav…
View article: aim-resolve: Automatic Identification and Modeling for Bayesian Radio Interferometric Imaging
aim-resolve: Automatic Identification and Modeling for Bayesian Radio Interferometric Imaging Open
Modern radio interferometers deliver large volumes of data containing high-sensitivity sky maps over wide fields-of-view. These large area observations can contain various and superposed structures such as point sources, extended objects, …
View article: Adaptive Optics-Enhanced Michelson Interferometer for Spectroscopy of Narrow-Band Light Sources
Adaptive Optics-Enhanced Michelson Interferometer for Spectroscopy of Narrow-Band Light Sources Open
Adaptive optics enables the deployment of interferometer-based spectroscopy without the need for moving parts necessary for scanning the interferometer arms. Here, we employ a Michelson Interferometer in conjunction with a Spatial Light Mo…
View article: aim-resolve: Automatic Identification and Modeling for Bayesian Radio Interferometric Imaging
aim-resolve: Automatic Identification and Modeling for Bayesian Radio Interferometric Imaging Open
Modern radio interferometers deliver large volumes of data containing high-sensitivity sky maps over wide fields-of-view. These large area observations can contain various and superposed structures such as point sources, extended objects, …
View article: Adaptive Optics-Enhanced Michelson Interferometer for Spectroscopy of Narrow-Band Light Sources
Adaptive Optics-Enhanced Michelson Interferometer for Spectroscopy of Narrow-Band Light Sources Open
Adaptive optics enables the deployment of interferometer-based spectroscopy without the need for moving parts necessary for scanning the interferometer arms. Here, we employ a Michelson Interferometer in conjunction with a Spatial Light Mo…
View article: Paper 17: Quantum Time Asymmetry and Apparent CPT Asymmetry from Directional Defect Dynamics
Paper 17: Quantum Time Asymmetry and Apparent CPT Asymmetry from Directional Defect Dynamics Open
We model spacetime as a discrete SU(2)/S³ “Holosphere” lattice where vacancy defects transport angular phase along corridor-admissible links. We show that quantum time asymmetry and apparent CPT asymmetry arise from directional defect dyna…
View article: Dark Matter is Not Matter: Exact 0.300 GeV/cm³ as Thermodynamic Fingerprint of Galactic Electromagnetic Coherence
Dark Matter is Not Matter: Exact 0.300 GeV/cm³ as Thermodynamic Fingerprint of Galactic Electromagnetic Coherence Open
This work derives the observed local dark-matter density of the Milky Way ρ_DM = 0.300 ± 0.015 GeV/cm³ exactly and without free parameters from the entanglement entropy of the electromagnetic vacuum across the boundary between the coherent…
View article: Dark Matter is Not Matter: Exact 0.300 GeV/cm³ as Thermodynamic Fingerprint of Galactic Electromagnetic Coherence
Dark Matter is Not Matter: Exact 0.300 GeV/cm³ as Thermodynamic Fingerprint of Galactic Electromagnetic Coherence Open
This work derives the observed local dark-matter density of the Milky Way ρ_DM = 0.300 ± 0.015 GeV/cm³ exactly and without free parameters from the entanglement entropy of the electromagnetic vacuum across the boundary between the coherent…
View article: High-Rigour Numerical Solver (BVP) for the KK-Chameleon Field: Experimental Roadmap for Atom Interferometry
High-Rigour Numerical Solver (BVP) for the KK-Chameleon Field: Experimental Roadmap for Atom Interferometry Open
This is the initial public release of the high-precision non-linear Spherical Boundary-Value Problem (BVP) Solver for the Kaluza-Klein Radion-Chameleon field. The code was used to generate the Fifth Force acceleration profile (a_phi) and t…
View article: High-Rigour Numerical Solver (BVP) for the KK-Chameleon Field: Experimental Roadmap for Atom Interferometry
High-Rigour Numerical Solver (BVP) for the KK-Chameleon Field: Experimental Roadmap for Atom Interferometry Open
This is the initial public release of the high-precision non-linear Spherical Boundary-Value Problem (BVP) Solver for the Kaluza-Klein Radion-Chameleon field. The code was used to generate the Fifth Force acceleration profile (a_phi) and t…
View article: "Gravitational and Electromagnetic Phase Noise in the Fractal Aether: A Unified Prediction for the T³ Matter-Wave and Aharonov–Bohm Interferometers".
"Gravitational and Electromagnetic Phase Noise in the Fractal Aether: A Unified Prediction for the T³ Matter-Wave and Aharonov–Bohm Interferometers". Open
Description: Paste the abstract: "The Fractal-Unified Field Theory (F-UFT) identifies the Lorenz-gauge electromagnetic four-potential and the gravitomagnetic vector potential as components of a single relativistic fractal aether with unive…
View article: "Gravitational and Electromagnetic Phase Noise in the Fractal Aether: A Unified Prediction for the T³ Matter-Wave and Aharonov–Bohm Interferometers".
"Gravitational and Electromagnetic Phase Noise in the Fractal Aether: A Unified Prediction for the T³ Matter-Wave and Aharonov–Bohm Interferometers". Open
Description: Paste the abstract: "The Fractal-Unified Field Theory (F-UFT) identifies the Lorenz-gauge electromagnetic four-potential and the gravitomagnetic vector potential as components of a single relativistic fractal aether with unive…
View article: Quantum-Correlated Photometry: Enabling Sub-Nanosecond Timing for Fast Radio Burst Localization
Quantum-Correlated Photometry: Enabling Sub-Nanosecond Timing for Fast Radio Burst Localization Open
Fast Radio Bursts (FRBs) are enigmatic transient astrophysical phenomena characterized by millisecond-duration radio pulses originating from cosmological distances. Precise localization of FRB sources is paramount for identifying their hos…
View article: Coherent Photon-Counting Interferometry: Breaking the Sensitivity Wall for Optical Astronomy
Coherent Photon-Counting Interferometry: Breaking the Sensitivity Wall for Optical Astronomy Open
Optical astronomy has continuously pushed the boundaries of observational capabilities, revealing profound insights into the cosmos. However, a fundamental limitation persists: the sensitivity wall imposed primarily by photon shot noise, e…
View article: Quantum-Correlated Photometry: Enabling Sub-Nanosecond Timing for Fast Radio Burst Localization
Quantum-Correlated Photometry: Enabling Sub-Nanosecond Timing for Fast Radio Burst Localization Open
Fast Radio Bursts (FRBs) are enigmatic transient astrophysical phenomena characterized by millisecond-duration radio pulses originating from cosmological distances. Precise localization of FRB sources is paramount for identifying their hos…
View article: "Gravitational and Electromagnetic Phase Noise in the Fractal Aether: A Unified Prediction for the T³ Matter-Wave and Aharonov–Bohm Interferometers".
"Gravitational and Electromagnetic Phase Noise in the Fractal Aether: A Unified Prediction for the T³ Matter-Wave and Aharonov–Bohm Interferometers". Open
Paste the abstract: "The Fractal-Unified Field Theory (F-UFT) identifies the Lorenz-gauge electromagnetic four-potential and the gravitomagnetic vector potential as components of a single relativistic fractal aether with universal Hausdorf…
View article: Quantum-Limited Mid-Infrared Interferometry for Protoplanetary Disk Imaging
Quantum-Limited Mid-Infrared Interferometry for Protoplanetary Disk Imaging Open
Protoplanetary disks are the birthplaces of planets, and understanding their structure, composition, and dynamics is crucial for deciphering the mechanisms of planet formation. Direct imaging of these disks, particularly their inner region…
View article: Coherent Photon-Counting Interferometry: Breaking the Sensitivity Wall for Optical Astronomy
Coherent Photon-Counting Interferometry: Breaking the Sensitivity Wall for Optical Astronomy Open
Optical astronomy has continuously pushed the boundaries of observational capabilities, revealing profound insights into the cosmos. However, a fundamental limitation persists: the sensitivity wall imposed primarily by photon shot noise, e…
View article: Quantum-Limited Mid-Infrared Interferometry for Protoplanetary Disk Imaging
Quantum-Limited Mid-Infrared Interferometry for Protoplanetary Disk Imaging Open
Protoplanetary disks are the birthplaces of planets, and understanding their structure, composition, and dynamics is crucial for deciphering the mechanisms of planet formation. Direct imaging of these disks, particularly their inner region…
View article: "Gravitational and Electromagnetic Phase Noise in the Fractal Aether: A Unified Prediction for the T³ Matter-Wave and Aharonov–Bohm Interferometers".
"Gravitational and Electromagnetic Phase Noise in the Fractal Aether: A Unified Prediction for the T³ Matter-Wave and Aharonov–Bohm Interferometers". Open
Paste the abstract: "The Fractal-Unified Field Theory (F-UFT) identifies the Lorenz-gauge electromagnetic four-potential and the gravitomagnetic vector potential as components of a single relativistic fractal aether with universal Hausdorf…
View article: Interferometer of Critical Mass CQFT: An Experimental Design to Measure the Quantum-Classical Boundary at 10^9 amu
Interferometer of Critical Mass CQFT: An Experimental Design to Measure the Quantum-Classical Boundary at 10^9 amu Open
Standard Quantum Mechanics (QM) fails to explain the quantum-classical transition at macroscopic scales. We propose a fundamental falsification test for the Constitutive Quantum Field Theory (CQFT)—a unified framework rooted in the TCG Abs…