Brian Molidor

Technology Leader & Research Innovator

VP of Software Engineering

Bridging practical software engineering with theoretical physics research. Leading enterprise technology solutions while exploring breakthrough concepts that challenge conventional thinking and unlock new possibilities.

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About

Technology Leader & Innovator

With over 15 years in software engineering leadership, I've driven enterprise growth while maintaining a passion for fundamental research. I bridge the gap between practical engineering solutions and theoretical breakthrough concepts.

Dual Expertise

My unique perspective combines deep technical leadership in software architecture and logistics systems with independent research in theoretical physics. This dual approach enables innovative solutions that others might overlook.

Innovation Philosophy

I believe breakthrough innovations emerge from creative synthesis of established principles. Whether optimizing enterprise software or exploring electromagnetic propulsion concepts, the same creative problem-solving approach applies.

10x Company Value Growth

50+ Global Marketplaces

30% Efficiency Increase

15+ Years Leadership

Professional Experience

VP of Software Engineering

BuyBox LLC

April 2024 - Present

Leading problem-solving initiatives, prototype development, and innovative solution architecture through creative design thinking. Driving technological advancement in e-commerce and logistics solutions.

Chief Technology Officer

Upstrēm Holdings LLC

April 2021 - April 2024

Developed a world-class proprietary warehouse and logistics software suite, contributing to 10× company valuation growth. Led global technology initiatives across 50+ marketplaces worldwide.

VP Software Engineering

Upstrēm Inc.

February 2016 - April 2021

As Senior Enterprise Architect, designed systems specialized for the liquidation market, streamlining problematic inventory processing and maximizing resale profits. Improved project delivery time by 25% through effective team management.

CEO

LightSpeedNow LLC

December 2009 - June 2013

Led all aspects of operations including brand development, website growth, advertising revenue, and sales strategy. Assembled and managed technical and sales teams to drive business growth.

Research

May 2025 • Theoretical Physics

Dynamic Metamaterial Boundaries for Reactionless Propulsion

A theoretical framework proposing the use of differential electromagnetic pulse speeds to create self-generating boundaries in space. These boundaries can reflect subsequent pulses, enabling controllable standing wave patterns for potential propulsive applications.

Innovation: First theoretical approach to combine metamaterial concepts with self-created electromagnetic boundaries for spacecraft propulsion.

DOI: 10.5281/zenodo.15455468

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Ongoing Research

Electromagnetic Field Manipulation

Investigating advanced applications of electromagnetic field control, including plasma containment, energy storage mechanisms, and field-matter interactions.

Focus areas include acoustic standing wave systems, magnetic field gradients, and nonlinear electromagnetic phenomena.

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Research Philosophy

Bridging Theory & Practice

My approach combines rigorous engineering experience with creative theoretical exploration. Real-world problem-solving informs theoretical research, while blue-sky thinking inspires practical innovations.

This dual perspective enables unique insights that pure academics or pure engineers might miss.

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Inventions & Concepts

Propulsion Technology

Self-Generated Electromagnetic Boundaries

Conceptual framework for creating temporary electromagnetic boundaries in space using differential pulse propagation speeds. These boundaries could enable spacecraft to manipulate standing wave patterns for propulsion.

Key Innovation: Eliminates need for physical reflectors by creating electromagnetic impedance mismatches in empty space.

Logistics & Software

Advanced Inventory Optimization Systems

Developed proprietary algorithms and software architectures for complex warehouse management, specifically optimized for liquidation and problematic inventory scenarios.

Impact: Systems deployed across 50+ global marketplaces, contributing to 10× company valuation growth.

Energy & Physics

Acoustic Standing Wave Applications

Exploring applications of controlled acoustic standing waves for particle manipulation, energy focusing, and potential propulsion systems.

Concept: Using multiple frequency acoustic sources to create controllable pressure gradients and moving wave patterns.

Conceptual Development

Future Innovation Pipeline

Continuously developing new concepts that bridge practical engineering with theoretical physics. Open to collaborative development and patent partnerships.

Areas: Electromagnetic field manipulation, novel energy systems, advanced computational architectures, and breakthrough propulsion concepts.

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Contact

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Email

For research inquiries, collaboration opportunities, and professional discussions

brianmolidor@gmail.com

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Professional networking and career updates

Connect on LinkedIn

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Research Collaboration

Open to partnerships with researchers, institutions, and organizations

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Location

Based in Oceanside, California

Available for remote and local collaboration