# Bistatic Radar with Quantum-Generated Noise Phase Manipulation and Non-Directional Antennas

**Authors:** Nikolay Gueorguiev, Atanas Nachev, Ognyan Todorov, Tereza Trencheva, Gergana Chalakova

PMC · DOI: 10.3390/s26051717 · Sensors (Basel, Switzerland) · 2026-03-09

## TL;DR

This paper introduces a new bistatic radar system using quantum-generated noise and phase manipulation to improve signal processing and conceal emissions.

## Contribution

The novel use of quantum-generated random sequences for phase control in bistatic radars enhances electronic stealth and signal processing.

## Key findings

- A quantum-generated random number sequence approach for phase manipulation control of bistatic noise radars is proposed.
- Synchronized emissions from both antennas improve radar signal processing and emission concealment.

## Abstract

What are the main findings?
A quantum-generated random number sequence approach for phase manipulation control of bistatic noise radars is proposed.A method for correlation-based processing of the received signals is proposed in which the emissions from both antennas are phase-controlled to arrive either in phase or out of phase at a predetermined point in space.

A quantum-generated random number sequence approach for phase manipulation control of bistatic noise radars is proposed.

A method for correlation-based processing of the received signals is proposed in which the emissions from both antennas are phase-controlled to arrive either in phase or out of phase at a predetermined point in space.

What are the implications of the main findings?
A bistatic radar with random phase manipulation is developed based on an infinite, non-repeating digital code.Radar signal processing capability and emission concealment are improved through controlled resultant electromagnetic field generation.

A bistatic radar with random phase manipulation is developed based on an infinite, non-repeating digital code.

Radar signal processing capability and emission concealment are improved through controlled resultant electromagnetic field generation.

The development of bistatic noise radars is a promising contemporary direction in the field of radar technology. Two novel approaches are proposed in this study as further development of existing methods for their design. The first approach involves using a quantum-generated random number sequence for phase manipulation control, which is practically infinite in duration. This ensures additional electronic protection of the radar, since the phase manipulation control code will not repeat regardless of the duration of its operation. The second approach is related to the introduction of synchronized emissions from both antennas in a manner ensuring equality or controlled difference of their signals upon arrival at a predetermined point in space. This enables the formation of a controlled electromagnetic field. As a result, received-signal processing capabilities are improved, while additional electronic “stealth” is achieved by creating a fictitious electromagnetic center of the radar’s resultant radiation (i.e., an effective RF phase center of the resultant emission) and complicating the determination of antenna locations. A block diagram and general algorithm for information processing of a bistatic radar with quantum-generated noise phase manipulation and non-directional antennas are proposed in this study.

## Full text

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## Figures

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## References

54 references — full list in the complete paper: https://tomesphere.com/paper/PMC12987275/full.md

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Source: https://tomesphere.com/paper/PMC12987275