MarketsandMarkets forecasts the Quantum Cryptography market to grow from an estimated USD 0.5 billion in 2023 to USD 3.0 billion by 2028 at a compound annual growth rate (CAGR) of 41.2%. Exponential adoption of quantum cryptography rising cyberattacks in the digitalization era, increasing cybersecurity funding, and rising demand for next-gen security solutions for cloud and IoT technologies are some factors driving the quantum cryptography market growth.
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By offering, Solution segment is expected to account for the largest share in 2023
Quantum computers threaten classical encryption methods and infrastructure security, entropy starvation allows for stealthy eavesdropping, and publicly exposed channels increase the risk for critical information exchanges. These solutions are vital in offering point-to-point security and storage networks for long-term data protection. In addition, the R&D platform is gaining traction among the scientific community, as the need for quantum-safe encryption is increasing to counter the threat of a quantum computer. The R&D platform comprises two stations, namely, the transmitter unit and the receiver unit. Each station consists of optical and electronic platforms, controlled by an external computer linked to the station through an Ethernet connector. With the R&D platform, users can experiment with different parameters and study various setups. It is well-documented in scientific publications and has been extensively tested and characterized. ID Quantique is a leading provider of R&D platforms for quantum cryptography.
By vertical, healthcare to account for highest CAGR in 2023
During COVID-19, healthcare facilities are more prone to becoming a target of cyberattacks. The healthcare sector has become the epicenter of this unexpected global pandemic. Increased investments by the government in the healthcare vertical to tackle COVID-19, and being prepared for future scenarios is expected to make the healthcare vertical adopt these solutions soon. Moreover, the use of quantum-safe encryption technology improves the proficiency of clinical and IT staff and provides real-time information access in case of emergencies. Additionally, the implementation of regulatory compliances, such as the Health Insurance Portability and Accountability Act of 1996 (HIPAA), is increasing the adoption rate of quantum cryptography among healthcare organizations and clinical staff. These compliance regulations also help secure sensitive data, protect identities by providing digital signatures, secure network gateways, and encrypting databases. Due to the rising use of this technology and increasing awareness about regulatory compliance, the adoption trend for quantum cryptography is expected to grow among developing countries.
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Unique Features in the Quantum Cryptography Market
Quantum Key Distribution, the fundamental component of quantum cryptography, enables two parties to use quantum characteristics to generate a shared, secret random key. Because any effort to intercept the key modifies its state and exposes the presence of the interceptor, QKD is almost unbreakable.
Quantum cryptography offers unwavering security since it is founded on the fundamental ideas of quantum mechanics, in contrast to classical cryptographic techniques that depend on computational hardness assumptions (such as the difficulty of factoring big numbers).
It is impossible to replicate an unknown quantum state exactly, according to this fundamental tenet of quantum mechanics. By doing this, the security of the transmission is ensured and any attempt to intercept and replicate the quantum key would be detected.
Quantum entanglement, in which particles become entangled so that the state of one instantaneously affects the state of another, regardless of distance, is used in quantum cryptography. Advanced QKD systems such as Ekert91, which improve security by identifying eavesdropping through Bell’s inequality violations, leverage this property.
Quantum random number generators, which employ quantum mechanics to generate genuinely random numbers, are frequently included in quantum cryptography systems. Because they are random by nature, these numbers are essential for creating strong cryptographic keys.
Major Highlights of the Quantum Cryptography Market
Because it promises impenetrable security, quantum cryptography is becoming more and more popular in a variety of industries, including telecommunications, government, finance, and defence.
The field of quantum key distribution (QKD) is developing, and newer protocols such as Measurement-Device-Independent QKD (MDI-QKD) are strengthening security and lowering weaknesses found in more conventional QKD systems.
Globally, a plethora of pilot programmes and commercial deployments are in progress, demonstrating the usefulness of quantum cryptography for protecting vital communications.
The progress being made in integrating quantum cryptography technologies with current classical networks will allow for easier acceptance and deployment without requiring total infrastructure overhauls.
Research and development in quantum cryptography is being fueled by significant funding from the public and private sectors. This is leading to innovation and the commercialization of innovative solutions.
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Toshiba provides reliable and ultra-secure quantum cryptography solutions that protect sensitive information from threats posed by advances in computing and mathematics. In today’s world, where data proliferation is almost constant, the secure transmission of information is essential. Toshiba offers world-leading cyber-physical-system technology that leverages the fundamental laws of Quantum Physics to protect private information. Toshiba has been involved in the research and development of quantum cryptography, a method of secure communication using the principles of quantum mechanics. One of Toshiba’s major achievements in quantum cryptography was the development of the first quantum key distribution (QKD) system using a single-photon detector in 2003. In 2010, Toshiba announced the development of a new quantum key distribution system type that used a novel protocol known as “differential phase shift” to encode the quantum signals. Toshiba has also been involved in developing quantum cryptography technologies for use in satellite communication.
ID Quantique is the market pioneer in quantum-safe cryptography solutions. The company creates and commercializes cutting-edge quantum goods and technologies for businesses to guarantee long-term data and public safety security. Governments, businesses, industrial clients, and academic study labs utilize its products in more than 60 nations across all continents. IDQ is divided into two company units: Quantum-Safe Security and Quantum Sensing. Quantum-Safe Security offers high-performance, quantum-safe security systems to protect data in transit. Quantum Sensing offers photon counting solutions for the visible and near-infrared regions of the optical spectrum, pulsed laser sources, counting and timing electronics, and photonic sensing solutions for industrial and research applications in Quantum Physics, Communication, Bio and Material Sciences, Defense and Security, Oil & Gas. Additionally, IDQ creates and markets quantum-based random number generators, which are the standard for genuine randomness across various sectors, including security, simulations, and gaming.
QNu Labs is a quantum technology company. It focuses on creating quantum cyber-security products using quantum key distribution technology, which enables the exchange of a cryptographic key between two distant parties over a quantum channel. The QNu Labs product provides a dedicated channel to transmit a secure private key to decrypt data and prevent eavesdropping on the encryption key, allowing customers to send data via a secure network. The company’s offering could be categorized into Quantum Cryptography Solutions and Quantum Key Distribution (QKD) Systems. It includes products such as ARMOS – Quantum Key Distribution (QKD), Tropos – Quantum Random Number Generator (QRNG), QOSMOS – Entropy as a Service (EaaS), Qverse – Quantum Secured Messenger, QVPN – Quantum-Safe VPN, and mCARP – Critical Analysis Research Platform. Quantum key distribution (QKD) systems generate and disseminate encryption keys using the principles of quantum mechanics, making them nearly unbreakable.
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