Quantum Cryptography

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60 h
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  • 10 Sequences
  • Advanced Level
  • Starts on October 31, 2018
  • Ends on February 3, 2019

You can't access an archived course

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Course details

Syllabus

Optional Background Videos:

  • Qubits
  • Quantum gates
  • Measuring qubits in a basis

Week 1: Quantum tools and a first protocol

  • Introduction and overview
  • Fundamental concepts of quantum information: pure and mixed quantum states, the partial trace, classical-quantum states, generalized measurements
  • Encrypting quantum bits with the quantum one-time pad

Week 2: The power of entanglement

  • Separable states, entangled states and purification
  • Sharing a classical secret using quantum states
  • Looking ahead to quantum key distribution: verifying entanglement using a Bell experiment
  • Monogamy of entanglement

Week 3: Quantifying information

  • What it means to be ignorant: trace distance and its use in security definitions
  • The (min)-entropy
  • Uncertainty principles as a guessing game

Week 4: From imperfect information to (near) perfect security

  • Introduction to privacy amplification
  • Strong randomness extractors
  • Randomness extraction using two-universal hashing
  • A construction of two-universal hash functions

Week 5: Distributing keys

  • Introduction to key distribution: the challenge of being correct and secure
  • Key distribution over a noisy channel

Guest video: David Elkouss (QuTech, TU Delft) – Practical error correction in key distribution protocols

Week 6: Quantum key distribution protocols

  • BB84 Protocol
  • Warmup: Security against a classical eavesdropper
  • E91 Protocol: purifying protocols using entanglement
  • Quantum key distribution: definitions and concepts

Guest video: Nicolas Gisin (University of Geneva) – Quantum key distribution in practice

Week 7: Quantum cryptography using untrusted devices

  • Introduction to device-independent quantum cryptography
  • Testing devices using a Bell experiment
  • Security of device-independent quantum key distribution against collective attacks

Guest video: Ronald Hanson (QuTech, TU Delft) – The first loophole free Bell experiment

Week 8: Quantum cryptography beyond key-distribution

  • Introduction and overview
  • Two-party cryptography: bit commitment and oblivious transfer
  • Impossibility of bit commitment
  • Weak commitments and coin tossing

Week 9: Perfect security from physical assumptions

  • The noisy storage model
  • A simple protocol for bit commitment in the noisy-storage model
  • Security from quantum uncertainty
  • A universal primitive: weak string erasure

Week 10: Further topics

  • Position verification from weak string erasure
  • Sharing a quantum secret
  • Secure computations on a remote quantum computer

Prerequisite

  • Undergraduate linear algebra
  • Undergraduate probability and statistics
  • Basic quantum information theory, including qubits, unitaries and measurements (optional videos will provide additional support for those new to quantum information)

Instructors

Stephanie Wehner
Professor, QuTech
Delft University of Technology

Thomas Vidick
Assistant Professor, Computing and Mathematical Sciences
California Institute of Technology

Guest Lecturers

Editor

Delft University of Technology (in Dutch: Technische Universiteit Delft), better known as TU Delft, is the oldest and largest public university in the Netherlands. 

It is based in Delft, in the Netherlands. In the QS World University Rankings 2022, it is ranked among the top 10 engineering and technology universities in the world. In architecture and civil engineering, it was ranked 2nd in the world, after MIT (Massachusetts Institute of Technology).

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