We don’t just deliver solutions

we build capabilities, communities, and ecosystems.

Our Services

At QuantumNET Solutions, we deliver cutting-edge technologies across Quantum Computing, Artificial Intelligence, and Advanced Imaging — all with real-world applications in mind.
We don’t just offer services. We co-create innovations, empower industries, and enable scientific impact — from strategic consulting to full-stack deployment.

Our mission is clear: to make complex technologies useful, scalable, and human-centric.

Quantum & AI Education and Training

We guide institutions, governments, and businesses through the journey of quantum and AI adoption. Our education services include:

Beginner-to-expert training programs
Custom university/school curriculum development
On-site workshops and remote learning

Talent pipeline building

Our team created the https://icisequynhon.com/conferences
/2025/VSAIQC/program.html , backed by global partnerships from France, Germany, Thailand, and more.
https://icisequynhon.com/conferences
/2025/VSAIQC/sponsors.html

Quantum Software & Scientific Impact

We design and develop quantum software packages for education and industry, alongside research publication services.

Our experts help your team co-author high-impact research.
For example, this Wiley-cited article led by our contributor Mohammad Haidar:
https://wires.onlinelibrary.wiley.com
/doi/epdf/10.1002/wcms.1664

Conferences, Hackathons & Ecosystem Development

We help you build innovation ecosystems from the ground up. Our services include:

• Conference and hackathon organization
• Seminars and community events
• Startup studio creation & incubation programs
• National and international collaboration hubs

We built https://openvqa.com , a global open-source community advancing real-world quantum algorithms. https://openvqa.com/showcase/

Proprietary Quantum Algorithms & IP

At QNS, we develop custom quantum algorithms with real-world applications, building valuable IP for sectors like:

• Pharmaceuticals
• Chemistry
• Optimization
• Finance

See our in-depth application examples in the Quantum Wonders section.

AI Models & Mobile Applications

We also design AI-powered applications. One example: our upcoming app WYW, which connects users to services in under 15 seconds — combining convenience with powerful AI models.

Quantum Software Debugging & Custom Solutions

Our team includes experienced quantum engineers who offer precision support to help solve:

• Quantum software bugs
• Platform-specific integration issues
• Optimization challenges in research tools

We offer specialized support for labs, startups, or teams working with noisy or complex quantum platforms.

Next-Gen Terahertz Imaging for Multisector Deployment

We develop ultrafast Terahertz (THz) imaging systems for:

These solutions are adaptable, high-resolution, and built for demanding environments. Terahertz(THz) waves are only weakly absorbed by non-polar and non-metallic materials such as wood, plastic, cardboard, fabric, etc.

Airport Body Scanners

Detect concealed weapons, explosives, drugs, or other prohibited items under clothing before passengers reach the conventional security checkpoints. The system would be discreetly installed at the airport entrance, allowing for remote scanning of all luggage without passengers being aware that their belongings are being inspected prior to check-in.

A spectroscopy terahertz technology drone

would be a cutting-edge fusion of drone mobility, terahertz (THz) wave technology, and spectroscopy, designed to perform non-invasive, high-resolution analysis of materials or environments remotely. Details contact QNS members.

Photonic Quantum Chip for Scalable Quantum

Computing Photonic quantum computing is a form of quantum computing that uses photons—particles of light—to represent qubits. The system typically includes a ring structure for storing photons and a scattering unit. The value of a qubit, whether 0 or 1, is determined by the direction in which the photon travels. However, due to quantum superposition, a photon can also exist in a state representing both 0 and 1 simultaneously.

Detection of cancer in body

1. Siegel, P. H. (2004).
Terahertz technology in biology and medicine.
IEEE Transactions on Microwave Theory and Techniques, 52(10), 2438–2447.
https://doi.org/10.1109/TMTT.2004.835916. Overview of terahertz applications in biomedical imaging and diagnostics.

2. Ferguson, B., & Zhang, X. C. (2002).
Materials for terahertz science and technology.
Nature Materials, 1(1), 26–33.
https://doi.org/10.1038/nmat708

Focus on material interaction with THz waves and imaging implications.