1. Quantum interference of tunneling paths in a squeezed Kerr oscillator, Chalmers University, Gothenburg, Sept. 2022.

2. A diagrammatic approach to the effective Hamiltonian of a driven nonlinear oscillator, Chalmers University, virtual, Jun. 2022.

3. On the effective Hamiltonian of a driven nonlinear oscillator, Tata Institute of Fundamental Research, Mumbai, May 2022.

4. Computing the effective Hamiltonian of a driven nonlinear oscillator with diagrams, Monday Lunch Seminar, Yale University, Sept. 2021.

5. Ultra-subharmonic bifurcation in a driven nonlinear oscillator: classical and quantum regimes, March meeting, virtual, Mar. 2021.

6. Multistability in a driven nonlinear oscillator: classical vs quantum regimes, Monday Lunch Seminar, virtual, Jun. 2020.

7. Multistability in a driven nonlinear oscillator: classical vs quantum regimes, March meeting, virtual, Mar. 2020.

8. Modeling and controlling pump-induced qubit effects in circuit quantum electrodynamics, Monday Lunch Seminar, Yale University, Apr. 2019.

9. Addressing Dynamical Instabilities in rf-driven transmons, March Meeting, Boston, Mar. 2019.

10. Inductively-shunted transmon, Monday Lunch Seminar, Yale University, Apr. 2018.

11. Inductively-shunted transmon for driven-dissipative operations with superconducting circuits, March meeting, Los Angeles, Mar. 2018.

1. Inductively-shunted transmon qubit for superconducting circuits (Patent No.: 11,223,355),

W. C. Smith, J. Venkatraman, X. Xiao, L. Verney, L. Frunzio, S. Shankar, M. Mirrahimi, and M. H. Devoret.

2. Quantum oscillator techniques and related systems and methods (Provisional Application No.: 63/351,068),

J. Venkatraman, R. G. Cortiñas, X. Xiao, N. E. Frattini, and M. H. Devoret.