Quantum Computing Measurement Engineer

Intel Intel · Semiconductors · Oregon, Hillsboro, United States

This role focuses on quantum computing, specifically measuring and characterizing silicon spin qubits using cryogenic systems. It involves experimental design, data analysis, and collaboration to advance quantum processor technology.

What you'd actually do

  1. Design and execute innovative quantum device measurement experiments to characterize silicon spin qubits
  2. Perform hands-on electrical measurements using dilution refrigerators and cryogenic systems at millikelvin temperatures
  3. Analyze quantum device performance data and develop predictive models for device optimization
  4. Collaborate with cross-functional teams including device fabrication, software development, and systems integration
  5. Develop efficient device testing and verification methodologies for quantum processors

Skills

Required

  • Ph.D. degree in Physics, Electrical Engineering, Cryogenic Engineering, Quantum Information, Quantum Technologies, or Quantum Engineering
  • Electrical measurement of semiconductor qubit or quantum devices
  • Tuning quantum dots to the few electron regime
  • Measuring quantum dot threshold voltages
  • Charge noise
  • Noise spectroscopy
  • Valley splitting
  • Qubit readout
  • Qubit spin state readout
  • Measuring fidelity
  • Qubit spin resonance
  • Coherence time
  • Relaxation
  • T1
  • T2
  • Rabi
  • Ramsey
  • CPMG
  • Hahn Echo
  • Pauli Spin Blockade
  • Spin orbit
  • Quantum gates
  • Bell State
  • GHZ
  • Tomography
  • Algorithms
  • Dilution refrigerators
  • Cryogenic systems

Nice to have

  • Cryogenic control of qubits
  • Electrical measurements of spin qubits
  • Singlet-triplet qubits
  • Exchange only qubits
  • Semiconductor qubits
  • Quantum well heterostructures
  • Silicon
  • Si/SiGe
  • Ge/SiGe
  • Measuring devices at cryogenic temperatures including mK - to 4 K
  • Programming
  • Software development
  • Driver development
  • Python
  • 1st author publications in peer-reviewed journals
  • Quantum error correction
  • Characterization protocols

What the JD emphasized

  • Ph.D. degree in Physics, Electrical Engineering, Cryogenic Engineering, Quantum Information, Quantum Technologies, or Quantum Engineering
  • Electrical measurement of semiconductor qubit or quantum devices
  • Measuring quantum dot threshold voltages, charge noise, noise spectroscopy, valley splitting; qubit readout, qubit spin state readout, measuring fidelity, qubit spin resonance, coherence time, relaxation, T1, T2, Rabi, Ramsey, CPMG, Hahn Echo, Pauli Spin Blockade, spin orbit, quantum gates, or Bell State, GHZ, tomography, or algorithms
  • With dilution refrigerators or other cryogenic systems