Project Examples
Fault-tolerant quantum computation(FTQC), quantum error correction(QEC):
Develop and implement a high-performance decoding algorithm for QEC and FTQC.
Survey and develop quantum (or classical) error-correcting codes.
Design architectural frameworks for FTQC tailored to specific physical systems (such as cavity QED and neutral atoms).
Explore fundamental properties of QEC and FTQC.
Applications of quantum information processing and quantum networks:
Research and develop promising algorithms and protocols that leverage the advantages of quantum information processing in fields like quantum algorithms, communication, cryptography, and sensing.
Design efficient algorithms or protocols optimized for fault-tolerant quantum computation or error-corrected quantum repeaters, adapted to the constraints of physical quantum systems.
Quantum state engineering in cavity QED and neutral-atom systems:
Contribute to the development of simulator library and hardware API for cQED-based quantum computer and quantum repeater.
Develop and/or optimize gate operations, entangled state generation and other qubit operations in cQED system.
Fundamental research into light-matter interaction and quantum many-body dynamics in cQED systems.
.. and more.
Qualifications
Must be currently enrolled in a university, graduate program, or an equivalent academic institution.
Requirements
Background in physics, mathematics, computer science, engineering, or related fields.
Basic understanding of quantum computation and quantum communication.
How to stand out in the crowd
Knowledge of quantum error-correcting codes and fault-tolerant quantum computation.
Knowledge in theoretical computer science such as coding theory, cryptography.
Research experience in the field of atomic, molecular and optical (AMO) physics.
Coding experience in Python or Julia.
Extensive experience with simulation libraries for quantum systems, such as qutip, quantumoptics.jl, qulacs, pennylane, stim, etc.
Compensation
Competitive salary + full or partial travel/lodging support
Work Detail
Format: On site (Tokyo, Japan) or remote.
Frequency: Full time or 2+ days / week.
Duration: 1+ month.
Skills Required
- Must be currently enrolled in a university or graduate program
- Background in physics, mathematics, computer science, or engineering
- Basic understanding of quantum computation and communication
What We Do
Nanofiber Quantum Technologies (NanoQT) is Japan's first quantum computer hardware startup. NanoQT is based on the unique technology of nanofiber-based Cavity QED (Quantum Electrodynamics) system developed in Japan, and aims to develop a universal quantum computer with distinctive scalability compared to conventional implementation methods. Furthermore, our technologies enables a full integration of quantum computers into quantum communication channel, realizing quantum network
