by Madhurjya Chowdhury
October 5, 2021
Quantum cryptography is a branch of research that uses quantum mechanical principles to encrypt and transmit data, making it impossible for hackers even with quantum computing skills to access. The development and execution of various cryptographic tasks using the advanced skills and power of quantum computers are also part of the greater use of quantum cryptography. Quantum computers have the potential to develop new, stronger, and more accurate encryption methods that would be difficult to achieve with current computer and communication infrastructures.
Here are the top 10 quantum cryptography books that you can read to learn more about the concept.
#1. Quantum random number generation
This book gives an overview of current solutions of quantum random number generators (QRNG) with a focus on their relationship to classical statistical random concepts and numerical methods for calculating random numbers. The reader, who preferably has knowledge of probability and statistics, computer programming or cryptography, is guided step-by-step through the realm of quantum bits, establishing clear relationships between QRNGs and their classic equivalents.
# 2. The 2020-2025 world outlook for quantum cryptography
This report examines the global outlook for quantum cryptography in over 190 countries. For each year shown, latent market or potential industrial profits (PIE) figures for the country in question (in millions of US dollars) and the country’s percentage of area and world are given. These comparative benchmarks enable the reader to quickly assess a country’s position in relation to others. Implicit demand estimates are calculated using econometric models that project fundamental economic processes within and between nations.
This study neither goes into detail about the individual market participants who serve the latent demand, nor does it go into specific product specifics.
# 3. Quantum cryptography
According to this study, the U.S. Air Force should learn more about quantum physics and its application to encryption. According to a study of scientists and academic organizations doing research to better understand and use quantum cryptography, quantum encryption is inevitable. Attempting to learn and use this information must be made with the full understanding that quantum cryptography is not a path that requires choice, but a technical necessity.
# 4. Applied quantum cryptography
It is an entirely new technology to use the quantum properties of individual photons to transfer binary keys between two parties for future encryption of secret data. A few years ago, quantum cryptography, or more precisely the distribution of quantum keys, was the realm of basic university research institutions. However, a lot has changed in recent years. Quantum Key Distribution (QKD) left the lab and was welcomed by hands-on teams who worked hard to turn the amazing discoveries of basic research into a workable technology.
# 5. Quantum computers for high school students
Peter Shor developed a quantum algorithm in 1994 that, once large quantum computers are built, would break much of the cryptography used in digital communication. Quantum computers are devices that use quantum systems as processors and work according to quantum mechanical principles. This book uses only high school algebra and trigonometry to explore the fascinating subject of quantum computing. The basis of quantum computing theory is based on concepts from quantum physics, mathematics, computer science and cryptography. One of the goals of this book is to understand Shor’s algorithm.
# 6. Post-quantum cryptography
This book contains the peer-reviewed results of the 8th International Workshop on Post-Quantum Cryptography, PQCrypto 2017, which took place in Utrecht, Netherlands, in June 2017. From a total of 67 submissions, the 23 revised complete papers were carefully evaluated and selected. Code-based cryptography, quantum algorithms, lattice-based cryptography, isogen-based cryptography, multivariate cryptography, and security models are among the topics covered in the articles.
# 7. Introduction to Quantum Information Science
This book covers the basics of quantum theory, quantum entanglement, quantum algorithms, quantum entropies, quantum error correction, quantum coding, and quantum cryptography. The only prerequisites are basic knowledge of analysis and linear algebra. In this way, students can understand the text. To understand quantum information, one must first learn the basics of quantum theory. This book presents it from a more operational perspective suitable for quantum information, but standard quantum theory textbooks do not.
#8th. A novel mechanism to increase security in quantum cryptography
Today it’s all about safety. Quantum cryptography is a data transmission technology that uses polarization. The study described here offers a technique that improves data security during shipping. The BB84 protocol serves as the basis for this mechanism. This protocol is used from the sender to the receiver and from the receiver to the sender. The key that you will get after using the method is pretty much secure.
# 9. Physical level security and quantum key distribution
To cover the most important security reviews, this textbook includes the most advanced topics in physical-level security, covert / stealth communications, cryptography, quantum key distribution (QKD), and cybersecurity. After introducing several concepts and practices to the reader, the author discusses how they can be used together to solve problems rather than being treated as different disciplines.
# 10. Nonlinear laser dynamics
Nonlinear dynamic observations of semiconductor lasers are discussed in a unique way. The book integrates current discoveries in quantum dot laser modeling with mathematical details and analytical knowledge about nonlinear processes in semiconductor lasers as well as future laser applications in encryption and chaos management. This multidisciplinary approach makes it a unique and valuable source of information for anyone interested in contributing to this area of ââstudy.
Quantum computers are developing rapidly and promise to provide solid computer science skills that can tackle a variety of critical, even life-saving, computing problems that normal computers cannot. Unfortunately, quantum computers can potentially create new threats at unprecedented speed and magnitude. Complex mathematical calculations, for example, which normal computers take months or years to solve, can be solved in seconds by quantum computers that use quantum algorithms such as the Shor algorithm. However, it is expected that in the next 5 to 10 years systems will emerge that can crack classic mathematical encryption methods.
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