Contact

Academic profiles and contact information.

Official email, LinkedIn, Google Scholar, ResearchGate, ORCID, and collaboration-relevant research contact areas.

Profiles

Academic profiles and official contact.

Public research profiles and the official Purdue email address for academic contact.

Google Scholar

Publication and citation profile for research outputs in quantum photonics, optical materials, and related work.

Open Scholar ↗

ResearchGate

Research profile with publication records, project visibility, and academic-networking context.

Open ResearchGate ↗

ORCID

Persistent researcher identifier: 0000-0001-6252-0261.

Open ORCID ↗

Official email

For academic and research-related communication, use the Purdue address below.

keni1@purdue.edu

Reasons to contact

Best-fit topics for research conversations.

The contact page now says what kinds of messages are most relevant, not only where to send them.

Materials

DBT:anthracene crystal growth

Reach out about vapor-phase molecular crystal assembly, optically thin anthracene, DBT doping density, surface roughness, linewidth preservation, or nanophotonic-compatible emitter materials.

Cavity QED

Molecular emitters in photonic cavities

Research discussions around molecule-cavity coupling, cooperativity, Purcell enhancement, β-factor, input-output transmission spectra, and collective molecular states in integrated nanophotonics.

Devices

Nanophotonic design and fabrication

Contact for SiN photonic crystal cavities, bullseye/radial Bragg structures, GDS workflows, fabrication-aware optical design, and device layouts for solid-state quantum emitters.

Spectroscopy

Cryogenic quantum-emitter measurements

Useful topics include PLE scans, linewidth and lifetime extraction, spectral wandering, long-pass-filtered vibronic collection, APD/EMCCD detection, and practical measurement workflows.

Collaborations

Quantum photonics collaborations

Reach out for collaborations involving molecular single-photon sources, atom-compatible photons, cavity-mediated emitter interactions, conference follow-ups, or research discussions at the material-device interface.

Contact

Open to research discussions, collaborations, and conference follow-ups.

Reach out for research discussions, technical collaboration, conference follow-ups, or questions related to the topics above.

keni1@purdue.edu Google Scholar ResearchGate ORCID LinkedIn

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Location

West Lafayette, Indiana · Purdue University

Electrical and Computer Engineering
Quantum optics and nanophotonics
Solid-state emitter platforms