Conducted numerous business meetings with stakeholders in quantum hardware, government and academic community.
Established several NDAs, drafted letter of agreements and statement of works between the company and external
partners, negotiated terms and conditions and economic aspects of agreements.
Identified players and stakeholders, analyzed quantum ecosystem and developed business strategy for engaging with partners.
Performed project planning and management and monitored project’s status to ensure consistency with the objectives and legal aspects of the agreements.
Overviewed and analyzed quantum ecosystem worldwide, identifying players, existing relationships and national strategies, past and present financial investments in both private and public sectors and the need for increasing engagement between various stakeholders.
Performed gap analysis for governmental investments in quantum technologies, alignment between various departments and advised authorities for future decisions.
Contributed in developing national quantum strategy and prepared gap analysis report and presentations.
Conducted deep analytical and numerical research on statistical noise processes in superconducting qubits.
Developed several Python packages for simulating and benchmarking superconducting based quantum hardware.
Communicated with the engineering team by writing several detailed specific reports, software requirement documents and formal presentations and discussion meetings.
Researched and analyzed technical challenges in sensing and medical imaging to identify opportunities for quantum technologies and initiate industrial partnership.
Performed a detailed budget analysis of various funding opportunities in the US and wrote a descriptive budget report.
Developed Python codes for dynamical simulation of Ising systems and Rydberg atoms.
Conducted research and reviewed technical literatures in finance, pharmaceutical industry and material development sectors to identify their computational bottlenecks that can be resolved by Xanadu’s photonic quantum device.
Communicated with stakeholders and business developers to strategically promote technological solutions of the company and analyzed customers’ problems in order to develop quantum-enabled solutions.
Coordinated meetings and events with industrial partners to present Xanadu’s products. Collaboratively established a non-disclosure agreements to strengthen external relationships.
Performed a theoretical study on simulating Ising systems using fault tolerant photonics quantum computers. Performed resource analysis and gate decomposition and collaboratively wrote a research paper.
Intense study on electronic structures theory, DFT and conformational space of molecules as well as machine learning algorithms in order to find quantum enabled solutions for the pharmaceutical industry.
Designed, simulated and evaluated an optimized pulsing technique in order to enhance the image resolution in nano-scale magnetic resonance imaging (MRI).
Wrote a research paper and presented the result at Canadian Association of Physics conference.
Led a team of teaching assistants and supervised a large group (>90) of junior researchers conducting course projects on implementing quantum devices.
Communicated and discussed complex concepts from quantum mechanics in a clear and concise manner in order to deliver the most relevant and practical aspects of the theory to nano-engineering students.
Evaluated students’ accomplishments by reviewing their project reports, assessing their simulations and designs and marking their exams.
Initiated, planned and developed several research projects, conducted extensive literature reviews and performed extensive mathematical modelling and numerical computations.
Managed and coordinated several discussion meetings with collaborators, presented the result in academic seminars and conferences and wrote several technical research papers and published in well-established journals.
Designed and analyzed a quantum key distribution (QKD) protocol and simulated and optimized the channel capacity. The result reduced commercial cost in satellite-based secure communication networks.
Performed quantum control and quantum noise characterization on nitrogen-vacancy defects in diamonds with the commercial purpose of quantum computation, quantum memory and enhanced imaging.
Conducted extensive open quantum system analysis of large spin ensembles. The result clarified and justified the quantum noise fluctuation in spin ensembles.
Mathematically investigated the symmetry of certain molecules in the language of open quantum systems and numerically simulated its quantum dynamics. The result explained an unusual experimental observation and the underlying collective noise process.
Proposed and analyzed an experiment in order to implement a noise resistant logical qubit for applications in quantum computation.