Nathalie de Leon

Princeton University

H-index: 31

North America-United States

About Nathalie de Leon

Nathalie de Leon, With an exceptional h-index of 31 and a recent h-index of 28 (since 2020), a distinguished researcher at Princeton University, specializes in the field of quantum information processing, quantum networks, nanoscale sensing, materials science, nanophotonics.

His recent articles reflect a diverse array of research interests and contributions to the field:

New opportunities in condensed matter physics for nanoscale quantum sensors

Diamond surface functionalization via visible light–driven C–H activation for nanoscale quantum sensing

Ab Initio Study of (100) Diamond Surface Spins

Strong Purcell enhancement of an optical magnetic dipole transition

Chemical profiles of the oxides on tantalum in state of the art superconducting circuits

Hybrid integration of gap photonic crystal cavities with silicon-vacancy centers in diamond by stamp-transfer

Neutral silicon vacancy centers in undoped diamond via surface control

A telecom O-band emitter in diamond

Nathalie de Leon Information

University	Princeton University
Position	Assistant Professor Department of Electrical Engineering
Citations(all)	6807
Citations(since 2020)	4085
Cited By	4154
hIndex(all)	31
hIndex(since 2020)	28
i10Index(all)	42
i10Index(since 2020)	41
Email	Access Email
University Profile Page	Princeton University
Google Scholar	View Google Scholar Profile

Nathalie de Leon Skills & Research Interests

quantum information processing

quantum networks

nanoscale sensing

materials science

nanophotonics

Nathalie de Leon

Princeton University

About Nathalie de Leon

Nathalie de Leon Information

Nathalie de Leon Skills & Research Interests

Top articles of Nathalie de Leon

New opportunities in condensed matter physics for nanoscale quantum sensors

Jared Rovny

Patrick Maletinsky

Eugene Demler

Diamond surface functionalization via visible light–driven C–H activation for nanoscale quantum sensing

Suong T Nguyen

Sorawis Sangtawesin

Alastair Stacey

Anton Pershin

Xin Gui

Ab Initio Study of (100) Diamond Surface Spins

Jyh-Pin Chou

Strong Purcell enhancement of an optical magnetic dipole transition

Salim Ourari

Songtao Chen

Łukasz Dusanowski

Mouktik Raha

Paul Stevenson

Chemical profiles of the oxides on tantalum in state of the art superconducting circuits

Aveek Dutta

Chenyu Zhou

Xin Gui

Ruoshui Li

Adrian Hunt

Hybrid integration of gap photonic crystal cavities with silicon-vacancy centers in diamond by stamp-transfer

Srivatsa Chakravarthi

Alex Abulnaga

Ding Huang

Karine Hestroffer

Fariba Hatami

Neutral silicon vacancy centers in undoped diamond via surface control

Zi-Huai Zhang

Xin Gui

Paul Stevenson

Minghao Li

Nicola Palmer

Patrick Maletinsky

A telecom O-band emitter in diamond

Sounak Mukherjee

Zi-Huai Zhang

Brett C Johnson

Nicola Palmer

Alastair Stacey

Philipp Reineck

Neutral silicon-vacancy centers in diamond via photoactivated itinerant carriers

Zi-Huai Zhang

Nicola Palmer

Probing itinerant carrier dynamics at the diamond surface using single nitrogen vacancy centers

Jared Rovny

Room-temperature photochromism of silicon vacancy centers in CVD diamond

Alexander Wood

Zi-Huai Zhang

Sachin Sharma

Harishankar Jayakumar

X-ray quantification of oxygen groups on diamond surfaces for quantum applications

Jyh-Pin Chou

Alastair Stacey

Disentangling losses in tantalum superconducting circuits

Aveek Dutta

Nana Shumiya

Ray Chang

Xin Gui

Indistinguishable telecom band photons from a single Er ion in the solid state

S. Chen

Nanoscale covariance magnetometry with diamond quantum sensors

Jared Rovny

Shimon Kolkowitz

Probing spin dynamics on diamond surfaces using a single quantum sensor

Dolev Bluvstein

Sorawis Sangtawesin

Kristiaan De Greve

Helena Knowles

Jyh-Pin Chou

Erbium-implanted materials for quantum communication applications