Dr. William Munizzi
@wmunizzi.bsky.social
Physicist, Postdoctoral Scholar UCLA / Affiliate Researcher Berkeley Lab
That’ll be great! Looking forward to it
January 10, 2026 at 10:06 PM
That’ll be great! Looking forward to it
That’s amazing haha
January 10, 2026 at 9:36 PM
That’s amazing haha
I am excited for great discussions and catching up with the community.
Who else plans on attending, and what themes are you most excited about?
#Quantum #Physics #Conference #QuantumInformation
Who else plans on attending, and what themes are you most excited about?
#Quantum #Physics #Conference #QuantumInformation
January 6, 2026 at 5:35 PM
I am excited for great discussions and catching up with the community.
Who else plans on attending, and what themes are you most excited about?
#Quantum #Physics #Conference #QuantumInformation
Who else plans on attending, and what themes are you most excited about?
#Quantum #Physics #Conference #QuantumInformation
"Combining Error Detection and Mitigation: A Hybrid Protocol for Near-Term Quantum Simulation"
arxiv.org/abs/2510.01181
arxiv.org/abs/2510.01181
Combining Error Detection and Mitigation: A Hybrid Protocol for...
Practical implementation of quantum error correction is currently limited by near-term quantum hardware. In contrast, quantum error mitigation has demonstrated strong promise for improving the...
arxiv.org
January 6, 2026 at 5:35 PM
"Combining Error Detection and Mitigation: A Hybrid Protocol for Near-Term Quantum Simulation"
arxiv.org/abs/2510.01181
arxiv.org/abs/2510.01181
"Navigating the Quantum Resource Landscape of Entropy Vector Space Using Machine Learning and Optimization"
arxiv.org/abs/2511.16724
arxiv.org/abs/2511.16724
Navigating the Quantum Resource Landscape of Entropy Vector Space...
We present a machine learning framework to study the dynamics of entropy vectors and quantum resources, including entanglement and magic, focusing on violations of entropy inequalities. Using a...
arxiv.org
January 6, 2026 at 5:35 PM
"Navigating the Quantum Resource Landscape of Entropy Vector Space Using Machine Learning and Optimization"
arxiv.org/abs/2511.16724
arxiv.org/abs/2511.16724
Thanks to brilliant collaborators Charles ChunJun Cao, Alioscia Hamma, Lorenzo Leone, Savatore F.E. Oliviero, and Gong Cheng!
#Quantum #QuantumInformation #Holography #Gravity #QuantumGravity #QuantumComputing #Physics
#Quantum #QuantumInformation #Holography #Gravity #QuantumGravity #QuantumComputing #Physics
January 5, 2026 at 5:48 PM
Thanks to brilliant collaborators Charles ChunJun Cao, Alioscia Hamma, Lorenzo Leone, Savatore F.E. Oliviero, and Gong Cheng!
#Quantum #QuantumInformation #Holography #Gravity #QuantumGravity #QuantumComputing #Physics
#Quantum #QuantumInformation #Holography #Gravity #QuantumGravity #QuantumComputing #Physics
These results suggest nonlocal magic serves as both a practical diagnostic of "quantumness", and constitutes a new entry in the AdS/CFT dictionary, opening avenues for novel study of quantum phases, resource dynamics, and information theoretic structures in holography.
January 5, 2026 at 5:48 PM
These results suggest nonlocal magic serves as both a practical diagnostic of "quantumness", and constitutes a new entry in the AdS/CFT dictionary, opening avenues for novel study of quantum phases, resource dynamics, and information theoretic structures in holography.
In conformal field theories, we show that non-local magic controls the classical simulability of incompressible states, and manifests in a holographic setting as the gravitational backreaction of bulk minimal surfaces.
January 5, 2026 at 5:48 PM
In conformal field theories, we show that non-local magic controls the classical simulability of incompressible states, and manifests in a holographic setting as the gravitational backreaction of bulk minimal surfaces.
In this work we introduce non-local magic as a quantum resource emerging from the structure of a state's entanglement spectrum, and derive its bounds in terms of entanglement and Renyi entropy measures.
January 5, 2026 at 5:48 PM
In this work we introduce non-local magic as a quantum resource emerging from the structure of a state's entanglement spectrum, and derive its bounds in terms of entanglement and Renyi entropy measures.
🥂 Here’s to carrying forward the lessons learned this year, and to the exciting work that lies ahead as we shape the future of quantum science. Wishing everyone the best in 2026!
#Quantum #QuantumComputing #Physics #Science #Mentorship
#Quantum #QuantumComputing #Physics #Science #Mentorship
December 31, 2025 at 7:06 PM
🥂 Here’s to carrying forward the lessons learned this year, and to the exciting work that lies ahead as we shape the future of quantum science. Wishing everyone the best in 2026!
#Quantum #QuantumComputing #Physics #Science #Mentorship
#Quantum #QuantumComputing #Physics #Science #Mentorship
As we look toward the year ahead, I’m excited to build on this momentum and continue pushing the field forward little by little. The challenges of realizing useful and reliable quantum computation remain substantial, but the pace of progress is undeniable.
December 31, 2025 at 7:06 PM
As we look toward the year ahead, I’m excited to build on this momentum and continue pushing the field forward little by little. The challenges of realizing useful and reliable quantum computation remain substantial, but the pace of progress is undeniable.
I’m also thankful for the spirit of the broader quantum community, which fosters collaboration across institutions and disciplines. This collective effort, spanning distinct fields and individuals at various career stages, is what enables quantum science to advance at the pace we’re witnessing.
December 31, 2025 at 7:06 PM
I’m also thankful for the spirit of the broader quantum community, which fosters collaboration across institutions and disciplines. This collective effort, spanning distinct fields and individuals at various career stages, is what enables quantum science to advance at the pace we’re witnessing.
Watching students grow into scientists, learning alongside them, and developing as a mentor in the process has been one of the most rewarding parts of the year.
December 31, 2025 at 7:06 PM
Watching students grow into scientists, learning alongside them, and developing as a mentor in the process has been one of the most rewarding parts of the year.
The creativity and tenacity of students, combined with the perspective and advisement of senior researchers, have helped me grow not only as a scientist, but also as a learner myself.
December 31, 2025 at 7:06 PM
The creativity and tenacity of students, combined with the perspective and advisement of senior researchers, have helped me grow not only as a scientist, but also as a learner myself.
I am especially grateful for the outstanding graduate students, postdocs, professors, and researchers I’ve had the privilege to work with this year.
December 31, 2025 at 7:06 PM
I am especially grateful for the outstanding graduate students, postdocs, professors, and researchers I’ve had the privilege to work with this year.
From attempts to realize useful error correction and mitigation on NISQ hardware, to extending entanglement calculation techniques in topological field theories, 2025 has been a year full of diverse ideas that have pushed my development as a scientist.
December 31, 2025 at 7:06 PM
From attempts to realize useful error correction and mitigation on NISQ hardware, to extending entanglement calculation techniques in topological field theories, 2025 has been a year full of diverse ideas that have pushed my development as a scientist.