About The Company (Industry & Sector)
An advanced-technology scale-up at the crossroads of
Quantum Computing, Artificial Intelligence and Semiconductor Engineering
. The hardware division designs full-stack enterprise quantum computers—spanning superconducting processors, cryogenic control electronics and RF instrumentation—to unlock breakthroughs across life-sciences, finance, transportation and space.Role & Responsibilities
- Design and simulate novel superconducting-qubit circuits that will power India’s most powerful production quantum computer.
- Apply deep RF / microwave theory to optimise resonance, coupling and loss in on-chip cavities and interconnects.
- Drive multi-physics modelling in HFSS, Sonnet, COMSOL and ADS, validating results with cryogenic measurements.
- Collaborate with fabrication, control-electronics and theory teams to iterate processor architecture and tape-out flows.
- Analyse qubit-level metrics, author concise DoE reports and present design recommendations to leadership.
- Champion best practices in simulation automation, version control and peer design reviews within an agile R&D setup.
Skills & Qualifications
Must-Have
- Master’s or PhD in Physics, Electronics or Communication Engineering plus 2 + years’ experience designing superconducting qubits.
- Proven expertise in qubit-level circuit design, RF/microwave theory and superconducting-device analysis.
- Hands-on with HFSS, Sonnet, COMSOL and ADS for 3-D EM and multi-tone simulations.
- Familiarity with Linux environments and scripting (TCL / Python) to automate simulation and data-processing pipelines.
- Strong problem-solving and communication skills; thrive in cross-functional hardware teams.
- Team-player mentality with a bias for rapid experimentation and data-driven design iteration.
Preferred
- Experience in RF or mixed-signal PCB design for cryogenic or microwave subsystems.
- Prior work characterising or simulating Josephson-junction devices and qubit coherence limits.
- Ability to interpret RF component datasheets and translate specs into layout constraints.
- Familiarity with yield-optimisation techniques and SPC dashboards for nanofabrication flows.
- Publications or patents in quantum-hardware design or superconducting circuits.
- Contributions to open-source EM simulation or quantum-design toolchains.
Skills: numerical tool-chains,comsol,problem-solving,coherence times measurement,statistical process control,cleanroom safety,superconducting-qubit error-correction schemes,gate fidelity measurement,ldpc codes,numerical methods,quantum-software stacks,circuit design,peer-reviewed publications,semiconductor,experimental protocols,data processing in matlab,matlab,dry etching,collaboration,quantum computing,data-driven design,automated data acquisition,quantum-state & process tomography,afm,qubit-control schemes,dynamical decoupling,artificial intelligence,optical lithography,python-based quantum platforms,quantum error-correction codes,hfss,thin-film deposition,rf/microwave theory,process-automation scripts,quantum device characterization,sem,wet etching,cryogenic fixture design,communication,quantum-process tomography,computational modelling of quantum circuits,superconducting qubit design,error-correction concepts,tcl,circuit qed,linux,hamiltonian engineering,teamwork,sonnet,team collaboration,quantum hardware,ads,error-mitigation techniques,fault-tolerant architectures,python,quantum-state tomography,e-beam lithography,data processing in python,surface codes,xrd