PhD Student • Atominstitut TU Wien • Quantum Force Metrology

Exploring the Quantum Universe One Force at a Time

Pioneering precision measurements of Casimir forces and quantum vacuum interactions at TU Wien, pushing the boundaries of fundamental physics.

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Quantum Physics Research

Pushing the Boundaries of Fundamental Physics

Specializing in Casimir force metrology and quantum vacuum interactions at TU Wien, exploring the deepest mysteries of quantum mechanics.

Quantum Force Metrology

Developing state-of-the-art experimental setups for precision measurement of Casimir forces using plane-parallel plate geometry and sub-nanometer interferometry.

Sub-nanometer resolution readout
Six-axis seismic isolation
Active thermal shielding (<0.3 mK)

Laser & Photonics

Expertise in fiber laser systems, nonlinear optics, and high-power laser design from M.Sc. research at Shahid Beheshti University.

Medical Physics

Applied computational modeling for tumor treating fields (TTF) therapy optimization using 3D MRI segmentation and dielectric modeling.

"The deepest understanding of nature emerges when we measure what was thought unmeasurable."

My research philosophy centers on pushing the boundaries of precision measurement in quantum systems, bridging fundamental physics with cutting-edge technology to explore the quantum vacuum and its interactions.

Featured Work

Innovation in Action

Breakthrough projects that demonstrate the power of research-driven entrepreneurship

Quantum Physics Metrology CANNEX

CANNEX Project: Casimir Force Metrology

Co-developing a state-of-the-art experimental setup for precision measurement of Casimir forces using plane-parallel plate geometry with sub-nanometer resolution interferometry and advanced seismic isolation.

View Project

High-Power Green Fiber Laser

Designed and fabricated 1.8W continuous green laser via SHG in bow-tie cavity for spectroscopy applications.

1.8W Output 532nm

Tumor Treating Fields (TTF)

Simulation and optimization of TTF therapy for brain and lung cancer using dielectric modeling and 3D MRI segmentation.

3D Modeling Clinical Impact

Sustainable Tech Solutions

Developing environmentally conscious technologies for a sustainable future.

Carbon Neutral Global Impact

Research Excellence

Advancing Human Knowledge

Multidisciplinary research that pushes the boundaries of what's possible

Quantum Force Metrology

Precision measurement of quantum vacuum interactions and Casimir forces

CANNEX Casimir Force Setup

Developing state-of-the-art experimental apparatus for sub-nanometer force measurements

Active FWF Funded

Seismic Isolation System

Six-axis vibration isolation using GAS filters and inverted pendulum design

Complete TU Wien

Laser & Photonics

High-power fiber laser systems and nonlinear optical processes

Green Fiber Laser via SHG

1.8W continuous green laser using bow-tie cavity second harmonic generation

Published High Impact

Yb-doped Fiber Lasers

Tunable 1064nm fiber laser systems with optimized mode profiles

Complete Industrial

Medical Physics

Computational modeling for cancer therapy optimization

Tumor Treating Fields (TTF)

3D MRI segmentation and dielectric modeling for brain and lung cancer therapy

Clinical Patient Care

COMSOL Multiphysics Modeling

Advanced simulation techniques for electromagnetic field optimization

Complete SBU Medical

Publications & Research

Latest contributions to quantum physics and photonics

Physics (MDPI) 2024

Force Metrology with Plane Parallel Plates: Final Design Review and Outlook

Comprehensive review of our Casimir force metrology setup design and future research directions in quantum vacuum interactions.

DOI: 10.3390/physics6020045 →

IJOP 2020

1.8 W Green Laser at 532 nm via Passive Resonant Enhancement

Development of high-power continuous green fiber laser system using second harmonic generation in bow-tie cavity configuration.

DOI: 10.29252/ijop.14.1.67 →

ICOP & ICPET 2020

Tunable 1064/532 nm Fiber Laser for Spectroscopy

Conference presentation on tunable fiber laser systems optimized for spectroscopic applications and research.

Conference Proceedings →

Let's Collaborate

Interested in quantum physics research, collaboration opportunities, or discussing cutting-edge metrology techniques? Let's connect and explore the frontiers of physics together.

hamid.haghmoradi@tuwien.ac.at

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