Advanced Sensing

Quantum
Photonic Radar

Beyond Classical Limits

Detection capability that exploits fundamental physics to see what conventional systems cannot. Stealth targets. Adverse conditions. Inherent security against spoofing.

Get in Touch Explore Technology

Technology Foundation

Quantum Photonic Sensing Architecture

Our quantum radar system leverages Spontaneous Parametric Down-Conversion (SPDC) to generate entangled photon pairs, enabling detection capabilities beyond classical limits.

Quantum Advantage

Classical vs Quantum

Quantum sensing overcomes fundamental limitations of classical radar through the unique properties of entangled photons.

Classical Limitation

Limited by thermal noise floor

SNR Improvement

Quantum Advantage

Sub-shot-noise sensitivity via entanglement

Classical Limitation

Defeated by radar-absorbing materials

Stealth Detection

Quantum Advantage

Correlation detection independent of reflection

Classical Limitation

Vulnerable to jamming and spoofing

EW Resistance

Quantum Advantage

Quantum signatures cannot be forged

Classical Limitation

Degraded by atmospheric conditions

Weather Performance

Quantum Advantage

Entanglement preserved through scattering

The Challenge

Classical Limits

Conventional radar faces fundamental limitations—stealth technology defeats it, electronic warfare jams it, and harsh environments degrade it. As threats evolve, detection capability must evolve faster.

Stealth technology defeats conventional radar

Electronic warfare can jam and spoof signals

Weather and environment degrade performance

Our Solution

Quantum Breakthrough

Quantum photonic radar uses the unique properties of entangled photons to achieve detection capabilities impossible with classical approaches—including inherent resistance to jamming and the ability to detect radar-absorbing materials.

Detect radar-absorbing materials via correlation

Quantum signatures cannot be forged or spoofed

Entanglement preserved through scattering

Capabilities

What It Does

Quantum-Enhanced Detection

Exploit quantum entanglement for signal-to-noise ratios beyond classical limits.

Stealth Detection

Detect targets designed to evade conventional radar systems.

Jamming Immunity

Quantum signatures cannot be replicated, providing inherent security.

Adverse Weather Operation

Maintain detection capability through fog, rain, and other challenging conditions.

Low Probability of Intercept

Single-photon operation makes detection extremely difficult.

Room Temperature Operation

Practical deployment without cryogenic cooling requirements.

Applications

Where It's Used

Air Defense

Early warning and tracking of advanced air threats including stealth platforms.

Stealth aircraft detection
Low-observable UAVs
Hypersonic threats
Cruise missiles

Border Surveillance

Persistent monitoring in challenging terrain and weather conditions.

All-weather operation
Ground target detection
Intrusion detection
Wide-area coverage

Critical Infrastructure

Secure perimeter detection for high-value installations.

Nuclear facilities
Military bases
Government buildings
Strategic assets

Specifications

Technical Details

810nm (SPDC)

Wavelength

Type-II BBO

Photon Source

Correlation-based

Detection

Room Temperature

Operating Temp

>85%

Quantum Efficiency

Fixed/Mobile

Deployment

Experience Quantum Detection

Ready to explore sensing beyond classical limits? Let's discuss how quantum photonic radar can transform your detection capabilities.

Get in Touch View All Products

QuantumPhotonic Radar

Quantum Photonic Sensing Architecture

Classical vs Quantum

Classical Limits

Quantum Breakthrough

What It Does

Quantum-Enhanced Detection

Stealth Detection

Jamming Immunity

Adverse Weather Operation

Low Probability of Intercept

Room Temperature Operation

Where It's Used

Air Defense

Border Surveillance

Critical Infrastructure

Technical Details

Experience Quantum Detection

Quantum
Photonic Radar