Quantum Secure Communication Training

Fundamental knowledge of quantum computing.

You will;

• Be able to apply their knowledge of quantum key distribution
• Be equipped to utilise key distribution protocols
• Be able to comply with existing quantum communication standards and secure quantum networking
• Be able to explain active & passive quantum security attacks
• Be able to explain physical attacks on quantum key distribution protocols

Day 1

What is quantum communication about?

Qubit and quantum register

• Four postulates

IBM Quantum

How to prepare a superposition?

• Preparing an arbitrary quantum state

No cloning theorem

• No Cloning Theorem - Proof

Entanglement

• Decomposition exercise
• Entangled states
• Difference between product and entangled states
• What does entanglement mean?
• Famous entanglement pairs
• How to produce entangled pairs?
• Changing the bases of an entangled pair
• CNOT gate
• Bell state generator
• Generalized quantum entangler
• How to create entangled qubits physically? - An example

Implementation examples for qubits

• Physical qubits
• Di Vincenzo criteria
• Superconducting qubits
• Trapped ions
• Photonic qubits

Day 2

Quantum key distribution over optical fiber

• From theory to the real world
• Protocol stack of QKD

Two important quantum communication protocols

• Quantum Communication – the players
• Superdense coding
• Teleportation
• Superdense coding and Teleportation

Quantum Medium Access Control

• Medium Access Control in distributed environment - quantum WIFI
• Quantum WIFI - MAC
• Quantum MAC - JOIN
• Quantum MAC - LEAVE
• Quantum MAC - TRANSFER
• Quantum MAC - generalization
• Rebalacing
• Quantum periodic table

Density matrix and its application in quantum communications

• Decomposition exercise
• Introduction to density matrix formalism
• Calculation of density matrices
• Mixed states
• Geometrical representation
• Are density matrices unique?
• Partial trace
• Postulates with density matrices
• Teleportation
• State vs. density matrix formalisms

Why do we need quantum key distribution?

• Problem formulation
• Symmetric Keys
• Symmetric Keys – problems and solutions
• Asymmetric Key System
• Problem formulation
• Problem formulation – Quantum Key Distribution

Quantum key distribution approaches

• Two types of QKD
• In real life, quantum channel is not ideal
• BB84, the first QKD protocol
• SARG04 protocols
• B92 protocol
• Entanglement based QKD
• E91 protocol

Passive and active attacks

• Passive attack
• Active attack
• Attack types
• Denial of service attack
• Man-in-the-middle attack

Day 3

Non idealistic channels

• Why realistic quantum channels are important?
• General model of communication
• AWGN
• Channel capacity
• A suprising example
• Various quantum capacities
• Basic quantum channel models
• Effects in real fibers

Interesting QKD approaches

• Chicago Quantum Exchange
• Chinese Quantum Network: More than 4600 kilometers
• UK Quantum Communications Hub
• EuroQCI
• Companies: ID Quantique
• Companies: MagiQ
• Companies: Quintessence Labs

Technical study: implementing BB84

• High level overview
• Physical realization

Quantum key distribution via free-space

• Why to use free-space instead of fiber-based solution?

Errors in free-space quantum channels

• Quantum signals on free-space channels
• There are equations behind everything
• But this is what is important

Prepare-and-measure QKD vs entanglement-based QKD

• Prepare-and-measure QKD -advantages
• Prepare-and-measure QKD -disadvantages
• Entanglement-based QKD -advantages
• Entanglement-based QKD -disadvantages

Physical attacks on quantum key distribution protocols

• Intercept and resend
• Faked states attack
• Photon number splitting attack
• Trojan Horse Attack (Light Injection Attack)
• Using a beam splitter

Interesting free-space QKD approaches

• Scenarios for satellite based quantum communicatoins
• How to use an entanglement-based satellite system?
• Quantum Experiments at Space Scale (QUESS)
• Singapore’s mission in 2019
• SpooQy 1
• European answer: SAGA
• A draft concept of the European SAGA system
• Timeline for the SpaceQCI (from European Comission)
• Timeline for the SAGA mission (from ESA)
• Security threats to a satellite QKD system

Quantum Secure Network, Quantum Information Network

• Stages to achieve a global quantum internet

Ingredients of future's quantum internet

• Challenges
• Entanglement swapping
• Entanglement swapping - remarks
• Routing

Overview of standardization

• Working on standards
• Working on quantum communications standards
• ETSI Quantum-Safe Cryptography (QSC) working group
• ETSI - Quantum-Safe Cryptography (QSC)
• ETSI Industry Specification Group (ISG)
• ETSI QKD
• ETSI Standards – An example
• IETF QIRG – Standards for quantum internet
• IETF QIRG – Two dradts

Quantum communication: implementation challenges

• Technical study: implementing CV-QKD system

A Hungarian CV-QKD system

• Technical study: implementing quantum random number generator (QRNG)

The simplest QRNG

• A Hungarian QRNG system

Summary and outlook

• Future's satellite system
• QKD and autonomous vehicles
• QKD and 5G