π Berkeley | π PhD Candidate @ UC Berkeley | π» Agentic Builder | βοΈ Ion Trapper
I build reliable AI systems and run trapped-ion experiments in atomic, molecular and optical physics. This page is a short snapshot of projects and papers I've been lucky to work on across both tracks.
- π§ͺ Agent evaluation and skills-based benchmarking
- π§ Deterministic environments for testing long-horizon workflows
- π οΈ Applied AI systems that operate across existing tools
- π BenchFlow - A frontier environment lab building the runtime and benchmarks AI agents learn in.
- π SkillsBench - A benchmark for evaluating how well AI agents use skills.
- π² first-tree - A Git-native context layer for decisions, ownership, and shared team knowledge.
- π₯· DoWhiz - An agent-native product for getting work done across email, chat, documents, and related tools.
- π§ DeepTutor - An AI research assistant built on Zotero for cited answers, figure and formula understanding, and multi-paper comparison.
- π mews - A local GitHub notification daemon that triages your inbox and dispatches Codex or Claude Code work for allow-listed repos while you sleep.
- π¦ smolclaw - Seeded mock environments for testing agent behavior in realistic workflows.
- π SBTI CLI - An offline CLI for testing agent behavior with bundled logic and exportable results.
- π» bem - Scientific computing code for boundary element and fast multipole methods in Python.
- π¦Ύ artiq_photonics_integration - An ARTIQ control framework for photonics integration experiments.
- π arXiv Β· ClawsBench: Evaluating Capability and Safety of LLM Productivity Agents in Simulated Workspaces
- π arXiv Β· SkillsBench: Benchmarking How Well Agent Skills Work Across Diverse Tasks
From control stack to integrated photonics, ion-photon interfaces, and microtrap design.
- π‘ Integrated photonics for trapped-ion systems
- π Ion-photon interfaces and multiplexed networking
- π§© Novel ion trap architectures, including 3D-printed microtraps
- π npj Nanophotonics Β· Individual trapped-ion addressing with adjoint-optimized multimode photonic circuits - Integrated photonic circuits for scalable trapped-ion addressing.
- π arXiv Β· Temporally multiplexed ion-photon quantum interface via fast ion-chain transport - Multiplexed ion-photon interface based on fast ion-chain transport.
- π Nature Β· 3D-Printed Micro Ion Trap Technology for Scalable Quantum Information Processing - 3D-printed micro ion trap technology for scalable atomic-physics platforms.
- π Phys. Rev. Lett. Β· Test of Causal Non-Linear Quantum Mechanics by Ramsey Interferometry on the Vibrational Mode of a Trapped Ion - Trapped-ion Ramsey interferometry probing fundamental physics of single-ion vibrational modes.




