Publications

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Absence of Weak Localization on Negative Curvature Surfaces

Jonathan B. Curtis, Prineha Narang, Victor Galitski
arXiv.2308.01351
2 Aug 2023

2023

The Role of Optical Phonon Confinement in The Infrared Dielectric Response of III-V Superlattices

Joseph R. MatsonMd Nazmul AlamGeorgios VarnavidesPatrick SohrSean KnightVanya DarakchievaMegan StokeyMathias SchubertAyman SaidThomas BeechemPrineha NarangStephanie Law, Joshua D. Caldwell
Advanced Materials - 25 July 2023

 

2023
On the equivalence between squeezing and entanglement potential for two-mode Gaussian states

On the equivalence between squeezing and entanglement potential for two-mode Gaussian states

Bohan Li, Aritra Das, Spyros Tserkis, Prineha Narang, Ping Koy Lam, & Syed M. Assad
Scientific Reports 13, Article number: 11722 (2023)

2023
Finite-momentum instability of a dynamical axion insulator

Finite-momentum instability of a dynamical axion insulator

Jonathan B. Curtis, Ioannis Petrides, and Prineha Narang
Phys. Rev. B 107, 205118 — Published 10 May 2023

2023
Stabilizing Fluctuating Spin-Triplet Superconductivity in Graphene via Induced Spin-Orbit Coupling

Stabilizing Fluctuating Spin-Triplet Superconductivity in Graphene via Induced Spin-Orbit Coupling

Jonathan B. Curtis, Nicholas R. Poniatowski, Yonglong Xie, Amir Yacoby, Eugene Demler, and Prineha Narang
Phys. Rev. Lett. 130, 196001 - Published 9 May 2023

2023
Jarzynski-like equality of nonequilibrium information production based on quantum cross-entropy

Jarzynski-like equality of nonequilibrium information production based on quantum cross-entropy

Akira Sone, Naoki Yamamoto, Tharon Holdsworth, and Prineha Narang

Phys. Rev. Research 5, 023039 – Published 19 April 2023

2023
The Bulk van der Waals Layered Magnet CrSBr is a Quasi-1D Material

The Bulk van der Waals Layered Magnet CrSBr is a Quasi-1D Material

Julian Klein, Benjamin Pingault, Matthias Florian, Marie-Christin Heißenbüttel, Alexander Steinhoff, Zhigang Song, Kierstin Torres, Florian Dirnberger, Jonathan B. Curtis, Mads Weile, Aubrey Penn, Thorsten Deilmann, Rami Dana, Rezlind Bushati, Jiamin Quan, Jan Luxa, Zdeněk Sofer, Andrea Alù, Vinod M. Menon, Ursula Wurstbauer, Michael Rohlfing, Prineha Narang, Marko Lončar, and Frances M. Ross
ACS Nano 2023
2023
Dynamics of photoinduced ferromagnetism in oxides with orbital degeneracy

Dynamics of photoinduced ferromagnetism in oxides with orbital degeneracy

Jonathan B. Curtis, Ankit Disa, Michael Fechner, Andrea Cavalleri, and Prineha Narang
Phys. Rev. Research 5, 013204 – Published 24 March 2023

2023

Three-Wave Mixing of Anharmonically Coupled Magnons

Zhuquan Zhang,  Frank Y. Gao, Jonathan B. Curtis, Zi-Jie Liu, Yu-Che Chien, Alexander von Hoegen, Takayuki Kurihara, Tohru Suemoto, Prineha Narang, Edoardo Baldini, and Keith A. Nelson

 

2023
Tunable Nonlinearity and Efficient Harmonic Generation from a Strongly Coupled Light–Matter System

Tunable Nonlinearity and Efficient Harmonic Generation from a Strongly Coupled Light–Matter System

Davis M. Welakuh and Prineha Narang
ACS Photonics 2023
Publication Date: January 24, 2023
2023
Ultrafast Dynamics of the Topological Semimetal GdSbxTe2–x–δ in the Presence and Absence of a Charge Density Wave

Ultrafast Dynamics of the Topological Semimetal GdSbxTe2–x–δ in the Presence and Absence of a Charge Density Wave

Robert J. Kirby, Angela Montanaro, Francesco Giusti, Andre Koch-Liston, Shiming Lei, Ioannis Petrides, Prineha Narang, Kenneth S. Burch, Daniele Fausti, Gregory D. Scholes, and Leslie M. Schoop*
J. Phys. Chem C - Published 3 January 2023

2023
Sensing the Local Magnetic Environment through Optically Active Defects in a Layered Magnetic Semiconductor

Sensing the Local Magnetic Environment through Optically Active Defects in a Layered Magnetic Semiconductor

Julian Klein, Zhigang Song, Benjamin Pingault, Florian Dirnberger, Hang Chi, Jonathan B. Curtis, Rami Dana, Rezland Bushati, Jiamin Quan, Lukas Dekanovsky, Zdenek Sofer, Andrea Alu, Vinod M. Menon, Jagadeesh S. Moodera, Marko Loncar, Prineha Narang*, and Frances M. Ross*
ACS Nano - Published 20 December 2022

Shining light on the microscopic resonant mechanism responsible for cavity-mediated chemical reactivity

Shining light on the microscopic resonant mechanism responsible for cavity-mediated chemical reactivity

Christian Schafer, Johannes Flick, Enrico Ronca, Prineha Narang & Angel Rubio
Nature Communications 13 - Published 19 December 2022

2022
Unconventional non-local relaxation dynamics in a twisted trilayer graphene moiré superlattice

Unconventional non-local relaxation dynamics in a twisted trilayer graphene moiré superlattice

Dorri Halbertal, Simon Turkel, Christopher J. Ciccarino, Jonas B. Hauck, Nathan Finney, Valerie Hsieh, Kenji Watanabe, Takashi Taniguchi, James Hone, Cory Dean, Prineha Narang, Abhay N. Pasupathy, Dante M. Kennes & D. N. Basov
Nature Communications volume - Published 8 December 2022

2022
Surface Cooper-Pair Spin Waves in Triplet Superconductors

Surface Cooper-Pair Spin Waves in Triplet Superconductors

Nicholas R. Poniatowski, Jonathan B. Curtis, Charlotte G. L. Bøttcher, Victor M. Galitski, Amir Yacoby, Prineha Narang, and Eugene Demler
Phys. Rev. Lett. 129, 237002 – Published 30 November 2022

2022
Quantum simulation of the Lindblad equation using a unitary decomposition of operators

Quantum simulation of the Lindblad equation using a unitary decomposition of operators

Anthony W. Schlimgen, Kade Head-Marsden, LeeAnn M. Sager, Prineha Narang, and David A. Mazziotti. 6/15/2022. “Quantum simulation of the Lindblad equation using a unitary decomposition of operators.” Physical Review Research, 4, 2, Pp. 023216. Publisher's Version
2022

Photoinduced Band Renormalization Effects in ZrSiS Topological Nodal-line Semimetal

Somnath Biswas, Ioannis Petrides, Robert J. Kirby, Catrina Oberg, Sebastian Klemenz, Caroline Weinberg, Austin Ferrenti, Prineha Narang, Leslie Schoop, and Gregory D. Scholes. 6/9/2022. “Photoinduced Band Renormalization Effects in ZrSiS Topological Nodal-line Semimetal.” arXiv. Publisher's Version
2022

Finite-Momentum Instability of Dynamical Axion Insulator

Jonathan B. Curtis, Ioannis Petrides, and Prineha Narang. 6/9/2022. “Finite-Momentum Instability of Dynamical Axion Insulator.” arXiv. Publisher's Version
2022

Axial Higgs mode detected by quantum pathway interference in RTe3

Yiping Wang, Ioannis Petrides, Grant McNamara, Md Mofazzel Hosen, Shiming Lei, Yueh-Chun Wu, James L. Hart, Hongyan Lv, Jun Yan, Di Xiao, Judy J. Cha, Prineha Narang, Leslie M. Schoop, and Kenneth S. Burch. 6/8/2022. “Axial Higgs mode detected by quantum pathway interference in RTe3.” Nature. Publisher's Version
2022
A general quantum algorithm for open quantum dynamics demonstrated with the Fenna-Matthews-Olson complex

A general quantum algorithm for open quantum dynamics demonstrated with the Fenna-Matthews-Olson complex

Zixuan Hu, Kade Head-Marsden, David A. Mazziotti, Prineha Narang, and Sabre Kais. 5/30/2022. “A general quantum algorithm for open quantum dynamics demonstrated with the Fenna-Matthews-Olson complex.” Quantum, 6, Pp. 726. Publisher's Version
2022

The bulk van der Waals layered magnet CrSBr is a quasi-1D quantum material

Julian Klein, Benjamin Pingault, Matthias Florian, Marie-Christin Heißenbüttel, Alexander Steinhoff, Zhigang Song, Kierstin Torres, Florian Dirnberger, Jonathan B. Curtis, Thorsten Deilmann, Rami Dana, Rezlind Bushati, Jiamin Quan, Jan Luxa, Zdenek Sofer, Andrea Alù, Vinod M. Menon, Ursula Wurstbauer, Michael Rohlfing, Prineha Narang, Marko Lončar, and Frances M. Ross. 5/26/2022. “The bulk van der Waals layered magnet CrSBr is a quasi-1D quantum material.” arXiv. Publisher's Version
2022

Quantum State Preparation and Non-Unitary Evolution with Diagonal Operators

Anthony W. Schlimgen, Kade Head-Marsden, LeeAnn M. Sager-Smith, Prineha Narang, and David A. Mazziotti. 5/5/2022. “Quantum State Preparation and Non-Unitary Evolution with Diagonal Operators.” arXiv. Publisher's Version
2022

Probing carrier interactions using electron hydrodynamics

Georgios Varnavides, Adam S. Jermyn, Polina Anikeeva, and Prineha Narang. 4/12/2022. “Probing carrier interactions using electron hydrodynamics.” arXiv. Publisher's Version
2022
Mesoscopic finite-size effects of unconventional electron transport in PdCoO2

Mesoscopic finite-size effects of unconventional electron transport in PdCoO2

Georgios Varnavides, Yaxian Wang, Philip J.W. Moll, Polina Anikeeva, and Prineha Narang. 4/8/2022. “Mesoscopic finite-size effects of unconventional electron transport in PdCoO2.” Physical Review Materials, 6, 4, Pp. 045002. Publisher's Version
2022

Tunable Nonlinearity and Efficient Harmonic Generation from a Strongly Coupled Light-Matter System

Davis M. Welakuh and Prineha Narang. 3/1/2022. “Tunable Nonlinearity and Efficient Harmonic Generation from a Strongly Coupled Light-Matter System.” arXiv. Publisher's Version
2022

Information back-flow in quantum non-Markovian dynamics and its connection to teleportation

Spyros Tserkis, Kade Head-Marsden, and Prineha Narang. 3/1/2022. “Information back-flow in quantum non-Markovian dynamics and its connection to teleportation.” arXiv. Publisher's Version
2022
Spectroscopic signatures of time-reversal symmetry breaking superconductivity

Spectroscopic signatures of time-reversal symmetry breaking superconductivity

Nicholas R. Poniatowksi, Jonathan B. Curtis, Amir Yacoby, and Prineha Narang. 2/28/2022. “Spectroscopic signatures of time-reversal symmetry breaking superconductivity.” Communications Physics, 5. Publisher's Version
2022

Nonlinear optical processes in centrosymmetric systems by strong-coupling-induced symmetry breaking

Davis M. Welakuh and Prineha Narang. 2/22/2022. “Nonlinear optical processes in centrosymmetric systems by strong-coupling-induced symmetry breaking.” arXiv. Publisher's Version
2022
Giant phonon-induced effective magnetic fields in 4f paramagnets

Giant phonon-induced effective magnetic fields in 4f paramagnets

Dominik M. Juraschek, Tomáš Neuman, and Prineha Narang. 2/17/2022. “Giant phonon-induced effective magnetic fields in 4f paramagnets.” Physical Review Research, 4, 1, Pp. 013129. Publisher's Version
2022
Branching quantum convolutional neural networks

Branching quantum convolutional neural networks

Ian MacCormack, Conor Delaney, Alexey Galda, Nidhi Aggarwal, and Prineha Narang. 2/14/2022. “Branching quantum convolutional neural networks.” Physical Review Research, 4, 1, Pp. 013117. Publisher's Version
2022
Cavity magnon-polaritons in cuprate parent compounds

Cavity magnon-polaritons in cuprate parent compounds

Jonathan B. Curtis, Andrey Grankin, Nicholas R. Poniatowksi, Victor M. Galitski, Prineha Narang, and Eugene Demler. 2/10/2022. “Cavity magnon-polaritons in cuprate parent compounds.” Physical Review Research, 4, 1, Pp. 013101. Publisher's Version
2022

Proximity-induced collective modes in an unconventional superconductor heterostructure

Jonathan B. Curtis, Nicholas R. Poniatowski, Amir Yacoby, and Prineha Narang. 1/12/2022. “Proximity-induced collective modes in an unconventional superconductor heterostructure.” arXiv. Publisher's Version
2022

Magnetic control in the terahertz

Dominik M. Juraschek and Prineha Narang. 12/23/2021. “Magnetic control in the terahertz.” Science, 374, 6575, Pp. 1555-1556. Publisher's Version
Quantum Simulation of Open Quantum Systems Using a Unitary Decomposition of Operators

Quantum Simulation of Open Quantum Systems Using a Unitary Decomposition of Operators

Anthony W. Schlimgen, Kade Head-Marsden, LeeAnn M. Sager, Prineha Narang, and David A. Mazziotti. 12/29/2021. “Quantum Simulation of Open Quantum Systems Using a Unitary Decomposition of Operators.” Physical Review Letters, 127, 27, Pp. 270503. Publisher's Version
2021

Transition from Lorentz to Fano Spectral Line Shapes in Non-Relativistic Quantum Electrodynamics

Davis M. Welakuh and Prineha Narang. 12/9/2021. “Transition from Lorentz to Fano Spectral Line Shapes in Non-Relativistic Quantum Electrodynamics.” arXiv. Publisher's Version
2021
Nanoscale lattice dynamics in hexagonal boron nitride moiré superlattices

Nanoscale lattice dynamics in hexagonal boron nitride moiré superlattices

S. L. Moore, C. J. Ciccarino, D. Halbertal, L. J. McGilly, N. R. Finney, K. Yao, Y. Shao, G. Ni, A. Sternbach, E. J. Telford, B. S. Kim, S. E. Rossi, K. Watanabe, T. Taniguchi, A. N. Pasupathy, C. R. Dean, J. Hone, P. J. Schuck, P. Narang, and D. N. Basov. 9/30/2021. “Nanoscale lattice dynamics in hexagonal boron nitride moiré superlattices.” Nature Communications, 12, Pp. 5741. Publisher's Version
2021
Anisotropic phonon-mediated electronic transport in chiral Weyl semimetals

Anisotropic phonon-mediated electronic transport in chiral Weyl semimetals

Christina A. C. Garcia, Dennis M. Nenno, Georgios Varnavides, and Prineha Narang. 9/27/2021. “Anisotropic phonon-mediated electronic transport in chiral Weyl semimetals.” Physical Review Materials, 5, 9, Pp. L091202. Publisher's Version
2021
Computational Materials Insights Into Solid-State Multiqubit Systems

Computational Materials Insights Into Solid-State Multiqubit Systems

John P. Philbin and Prineha Narang. 9/20/2021. “Computational Materials Insights Into Solid-State Multiqubit Systems.” PRX Quantum, 2, 3, Pp. 030102. Publisher's Version
2021

Imaging phonon-mediated hydrodynamic flow in WTe2

Uri Vool, Assaf Hamo, Georgios Varnavides, Yaxian Wang, Tony X. Zhou, Nitesh Kumar, Yuliya Dovzhenko, Ziwei Qiu, Christina A. C. Garcia, Andrew T. Pierce, Johannes Gooth, Polina Anikeeva, Claudia Felser, Prineha Narang, and Amir Yacoby. 9/16/2021. “Imaging phonon-mediated hydrodynamic flow in WTe2.” Nature Physics. Publisher's Version
2021
Capturing 3D atomic defects and phonon localization at the 2D heterostructure interface

Capturing 3D atomic defects and phonon localization at the 2D heterostructure interface

Xuezeng Tian, Xingxu Yan, Georgios Varnavides, Yakun Yuan, Dennis S. Kim, Christopher J. Ciccarino, Polina Anikeeva, Ming-Yang Li, Lain-Jong Li, Prineha Narang, Xiaoqing Pan, and Jianwei Miao. 9/15/2021. “Capturing 3D atomic defects and phonon localization at the 2D heterostructure interface.” Science Advances, 7, 38, Pp. eabi6699. Publisher's Version
2021

Generalized Design Principles for Hydrodynamic Electron Transport in Anisotropic Metals

Yaxian Wang, Georgios Varnavides, Polina Anikeeva, Johannes Gooth, Claudia Felser, and Prineha Narang. 9/1/2021. “Generalized Design Principles for Hydrodynamic Electron Transport in Anisotropic Metals.” arXiv. Publisher's Version
2021
Heterogeneous multipartite entanglement purification for size-constrained quantum devices

Heterogeneous multipartite entanglement purification for size-constrained quantum devices

Stefan Krastanov, Alexander Sanchez de la Cerda, and Prineha Narang. 8/19/2021. “Heterogeneous multipartite entanglement purification for size-constrained quantum devices.” Physical Review Research, 3, 3, Pp. 033164. Publisher's Version
2021
Cavity control of nonlinear phononics

Cavity control of nonlinear phononics

Dominik M. Juraschek, Tomáš Neuman, Johannes Flick, and Prineha Narang. 8/16/2021. “Cavity control of nonlinear phononics.” Physical Review Research, 3, 3, Pp. L032046. Publisher's Version
2021
Sondheimer oscillations as a probe of non-ohmic flow in WP2 crystals

Sondheimer oscillations as a probe of non-ohmic flow in WP2 crystals

Maarten R. van Delft, Yaxian Wang, Carsten Putzke, Jacopo Oswald, Georgios Varnavides, Christina A. C. Garcia, Chunyu Guo, Heinz Schmid, Vicky Süss, Horst Borrmann, Jonas Diaz, Yan Sun, Claudia Felser, Bernd Gotsmann, Prineha Narang, and Philip J.W. Moll. 8/10/2021. “Sondheimer oscillations as a probe of non-ohmic flow in WP2 crystals.” Nature Communications, 12, 4799. Publisher's Version
2021
Suppression of axionic charge density wave and onset of superconductivity in the chiral Weyl semimetal Ta2Se8I

Suppression of axionic charge density wave and onset of superconductivity in the chiral Weyl semimetal Ta2Se8I

Qing-Ge Mu, Dennis Nenno, Yan-Peng Qi, Feng-Ren Fan, Cuiying Pei, Moaz ElGhazali, Johannes Gooth, Claudia Felser, Prineha Narang, and Sergey Medvedev. 8/9/2021. “Suppression of axionic charge density wave and onset of superconductivity in the chiral Weyl semimetal Ta2Se8I.” Physical Review Materials, 5, 8, Pp. 084201. Publisher's Version
2021
A phononic interface between a superconducting quantum processor and quantum networked spin memories

A phononic interface between a superconducting quantum processor and quantum networked spin memories

Tomáš Neuman, Matt Eichenfield, Matthew Trusheim, Lisa Hackett, Prineha Narang, and Dirk Englund. 7/4/2021. “A phononic interface between a superconducting quantum processor and quantum networked spin memories.” npj Quantum Information, 7, 121. Publisher's Version
2021

Building a Quantum Engineering Undergraduate Program

Abraham Asfaw, Alexandre Blais, Kenneth R. Brown, Jonathan Candelaria, Christopher Cantwell, Lincoln D. Carr, Joshua Combes, Dripto M. Debroy, John M. Donohue, Sophia E. Economou, Emily Edwards, Michael F.J. Fox, Steven M. Girvin, Alan Ho, Hilary M. Hurst, Zubin Jacob, Blake R. Johnson, Ezekiel Johnston-Halperin, Robert Joynt, Eliot Kapit, Judith Klein-Seetharaman, Martin Laforest, H.J. Lewandowski, Theresa W. Lynn, Corey Rae H. McRae, Celia Merzbacher, Spyridon Michalakis, Prineha Narang, William D. Oliver, Jens Palsberg, David P. Pappas, Michael G. Raymer, David J. Reilly, Mark Saffman, Thomas A. Searles, Jeffrey H. Shapiro, and Chandralekha Singh. 7/3/2021. “Building a Quantum Engineering Undergraduate Program.” arXiv. Publisher's Version
2021

Atomistic spin textures on-demand in the van der Waals layered magnet CrSBr

Julian Klein, Thang Pham, Joachim Dahl Thomsen, Jonathan B. Curtis, Michael Lorke, Matthias Florian, Alexander Steinhoff, Ren A. Wiscons, Jan Luxa, Zdenek Sofer, Frank Jahnke, Prineha Narang, and Frances M. Ross. 6/30/2021. “Atomistic spin textures on-demand in the van der Waals layered magnet CrSBr.” arXiv. Publisher's Version
2021

Cavity magnon-polaritons in cuprate parent compounds

Jonathan B. Curtis, Andrey Grankin, Nicholas R. Poniatowski, Victor M. Galitski, Prineha Narang, and Eugene Demler. 6/15/2021. “Cavity magnon-polaritons in cuprate parent compounds.” arXiv. Publisher's Version
2021
Highly confined phonon polaritons in monolayers of oxide perovskites

Highly confined phonon polaritons in monolayers of oxide perovskites

Dominik M. Juraschek and Prineha Narang. 6/8/2021. “Highly confined phonon polaritons in monolayers of oxide perovskites.” Nano Letters. Publisher's Version
2021
Quantum Interfaces to the Nanoscale

Quantum Interfaces to the Nanoscale

Derek S. Wang, Michael Haas, and Prineha Narang. 5/17/2021. “Quantum Interfaces to the Nanoscale.” ACS Nano. Publisher's Version
2021
Deep-Subwavelength Thermal Switch via Resonant Coupling in Monolayer Hexagonal Boron Nitride

Deep-Subwavelength Thermal Switch via Resonant Coupling in Monolayer Hexagonal Boron Nitride

Georgia T. Papadakis, Christopher J. Ciccarino, Lingling Fan, Meir Orenstein, Prineha Narang, and Shanhui Fan. 5/3/2021. “Deep-Subwavelength Thermal Switch via Resonant Coupling in Monolayer Hexagonal Boron Nitride.” Physical Review Applied, 15, 5, Pp. 054002. Publisher's Version
2021

Shining Light on the Microscopic Resonant Mechanism Responsible for Cavity-Mediated Chemical Reactivity

Christian Schäfer, Johannes Flick, Enrico Ronca, Prineha Narang, and Angel Rubio. 4/26/2021. “Shining Light on the Microscopic Resonant Mechanism Responsible for Cavity-Mediated Chemical Reactivity.” arXiv. Publisher's Version
2021

Room temperature single-photon superfluorescence from a single epitaxial cuboid nano-heterostructure

John P. Philbin, Joseph Kelly, Lintao Peng, Igor Coropceanu, Abhijit Hazarika, Dmitri V. Talapin, Eran Rabani, Xuedan Ma, and Prineha Narang. 4/13/2021. “Room temperature single-photon superfluorescence from a single epitaxial cuboid nano-heterostructure.” arXiv. Publisher's Version
2021
Spin emitters beyond the Point Dipole Approximation in Nanomagnonic Cavities

Spin emitters beyond the Point Dipole Approximation in Nanomagnonic Cavities

Derek S. Wang, Tomáš Neuman, and Prineha Narang. 3/10/2021. “Spin emitters beyond the Point Dipole Approximation in Nanomagnonic Cavities.” The Journal of Physical Chemistry C. Publisher's Version
2021

Spectroscopic signatures of time-reversal symmetry breaking superconductivity

Nicholas R. Poniatowski, Jonathan B. Curtis, Amir Yacoby, and Prineha Narang. 3/9/2021. “Spectroscopic signatures of time-reversal symmetry breaking superconductivity.” arXiv. Publisher's Version
2021

Sum-frequency excitation of coherent magnons

Dominik M. Juraschek, Derek S. Wang, and Prineha Narang. 3/4/2021. “Sum-frequency excitation of coherent magnons.” Physical Review B, 103, 9, Pp. 094407. Publisher's Version
2021
Capturing non-Markovian dynamics on near-term quantum computers

Capturing non-Markovian dynamics on near-term quantum computers

Kade Head-Marsden, Stefan Krastanov, David A. Mazziotti, and Prineha Narang. 2/25/2021. “Capturing non-Markovian dynamics on near-term quantum computers.” Physical Review Research, 3, 1, Pp. 013182. Publisher's Version
2021
Direct imaging and electronic structure modulation of moiré superlattices at the 2D/3D interface

Direct imaging and electronic structure modulation of moiré superlattices at the 2D/3D interface

Kate Reidy, Georgios Varnavides, Joachim Dahl Thomsen, Abinash Kumar, Thang Pham, Arthur M. Blackburn, Polina Anikeeva, Prineha Narang, James M. LeBeau, and Frances M. Ross. 2/26/2021. “Direct imaging and electronic structure modulation of moiré superlattices at the 2D/3D interface.” Nature Communications, 12, Pp. 1290. Publisher's Version
2021

Demonstration of quantum advantage by a joint detection receiver for optical communications using quantum belief propagation on a trapped-ion device

Conor Delaney, Kaushik P. Seshadreesan, Ian MacCormack, Alexey Galda, Saikat Guha, and Prineha Narang. 2/25/2021. “Demonstration of quantum advantage by a joint detection receiver for optical communications using quantum belief propagation on a trapped-ion device.” arXiv. Publisher's Version
2021

Hybridized Defects in Solid-State Materials as Artificial Molecules

Derek S. Wang, Christopher J. Ciccarino, Johannes Flick, and Prineha Narang. 2/18/2021. “Hybridized Defects in Solid-State Materials as Artificial Molecules.” ACS Nano. Publisher's Version
2021

Spin-Dependent Transport Through a Colloidal Quantum Dot: The Role of Exchange Interactions

John P. Philbin, Amikam Levy, Prineha Narang, and Wenjie Dou. 2/15/2021. “Spin-Dependent Transport Through a Colloidal Quantum Dot: The Role of Exchange Interactions.” arXiv. Publisher's Version
2021
Light-matter interaction of a molecule in a dissipative cavity from first principles

Light-matter interaction of a molecule in a dissipative cavity from first principles

Derek S. Wang, Tomáš Neuman, Johannes Flick, and Prineha Narang. 3/9/2021. “Light-matter interaction of a molecule in a dissipative cavity from first principles.” The Journal of Chemical Physics, 154, Pp. 104109. Publisher's Version
2021
Evidence for dominant phonon-electron scattering in Weyl semimetal WP2

Evidence for dominant phonon-electron scattering in Weyl semimetal WP2

Gavin B. Osterhoudt, Vincent M. Plisson, Yaxian Wang, Christina A. C. Garcia, Johannes Gooth, Claudia Felser, Prineha Narang, and Kenneth S. Burch. 1/27/2021. “Evidence for dominant phonon-electron scattering in Weyl semimetal WP2.” Physical Review X, 11, 1, Pp. 011017. Publisher's Version
2021
Room-temperature photonic logical qubits via second-order nonlinearities

Room-temperature photonic logical qubits via second-order nonlinearities

Stefan Krastanov, Mikkel Heuck, Jeffrey H. Shapiro, Prineha Narang, Dirk R. Englund, and Kurt Jacobs. 1/8/2021. “Room-temperature photonic logical qubits via second-order nonlinearities.” Nature Communications, 12, 191. Publisher's Version
2021

Branching Quantum Convolutional Neural Networks

Ian MacCormack, Conor Delaney, Alexey Galda, Nidhi Aggarwal, and Prineha Narang. 12/28/2020. “Branching Quantum Convolutional Neural Networks.” arXiv. Publisher's Version
2020
Quantum Information and Algorithms for Correlated Quantum Matter

Quantum Information and Algorithms for Correlated Quantum Matter

Kade Head-Marsden, Johannes Flick, Christopher J. Ciccarino, and Prineha Narang. 12/16/2020. “Quantum Information and Algorithms for Correlated Quantum Matter.” Chemical Reviews. Publisher's Version
2020
Challenges in Plasmonic Catalysis

Challenges in Plasmonic Catalysis

Emiliano Cortés, Lucas V. Besteiro, Alessandro Alabastri, Andrea Baldi, Giulia Tagliabue, Angela Demetriadou, and Prineha Narang. 12/14/2020. “Challenges in Plasmonic Catalysis.” ACS Nano. Publisher's Version
2020
Nanomagnonic Cavities for Strong Spin-Magnon Coupling and Magnon-Mediated Spin-Spin Interactions

Nanomagnonic Cavities for Strong Spin-Magnon Coupling and Magnon-Mediated Spin-Spin Interactions

Tomáš Neuman, Derek S. Wang, and Prineha Narang. 12/9/2020. “Nanomagnonic Cavities for Strong Spin-Magnon Coupling and Magnon-Mediated Spin-Spin Interactions.” Physical Review Letters, 125, 24, Pp. 247702. Publisher's Version
2020
Dipole-coupled defect pairs as deterministic entangled photon pair sources

Dipole-coupled defect pairs as deterministic entangled photon pair sources

Derek S. Wang, Tomáš Neuman, and Prineha Narang. 12/7/2020. “Dipole-coupled defect pairs as deterministic entangled photon pair sources.” Physical Review Research, 2, 4, Pp. 043328. Publisher's Version
2020
Group III quantum defects in diamond are stable spin-1 color centers

Group III quantum defects in diamond are stable spin-1 color centers

Isaac Harris, Christopher J. Ciccarino, Johannes Flick, Dirk R. Englund, and Prineha Narang. 11/24/2020. “Group III quantum defects in diamond are stable spin-1 color centers.” Physical Review B, 102, 19, Pp. 195206. Publisher's Version
2020

Purification and Entanglement Routing on Quantum Networks

Michelle Victoria, Stefan Krastanov, Alexander Sanchez de la Cerda, Steven Willis, and Prineha Narang. 11/23/2020. “Purification and Entanglement Routing on Quantum Networks.” arXiv. Publisher's Version
2020

Passive controlled-variable phase gate on photonic qubits via a cascade emitter

David D. Dai, Derek S. Wang, and Prineha Narang. 11/17/2020. “Passive controlled-variable phase gate on photonic qubits via a cascade emitter.” arXiv. Publisher's Version
2020

Off balance and over the edge

Christopher J. Ciccarino and Prineha Narang. 11/16/2020. “Off balance and over the edge.” Nature Nanotechnology. Publisher's Version
2020

The topology of electronic band structures

Prineha Narang, Christina A. C. Garcia, and Claudia Felser. 11/2/2020. “The topology of electronic band structures.” Nature Materials. Publisher's Version
2020
Strong spin–orbit quenching via the product Jahn–Teller effect in neutral group IV qubits in diamond

Strong spin–orbit quenching via the product Jahn–Teller effect in neutral group IV qubits in diamond

Christopher J. Ciccarino, Johannes Flick, Isaac B. Harris, Matthew E. Trusheim, Dirk R. Englund, and Prineha Narang. 10/30/2020. “Strong spin–orbit quenching via the product Jahn–Teller effect in neutral group IV qubits in diamond.” npj Quantum Materials, 5. Publisher's Version
2020
Phono-magnetic analogs to opto-magnetic effects

Phono-magnetic analogs to opto-magnetic effects

Dominik M. Juraschek, Prineha Narang, and Nicola A. Spaldin. 10/7/2020. “Phono-magnetic analogs to opto-magnetic effects.” Physical Review Research, 2, 4, Pp. 043035. Publisher's Version
2020
Theoretical investigation of charge density wave instability in CuS2

Theoretical investigation of charge density wave instability in CuS2

Yuxin Yin, Jennifer Coulter, Christopher J. Ciccarino, and Prineha Narang. 10/2/2020. “Theoretical investigation of charge density wave instability in CuS2.” Physical Review Materials, 4, 10, Pp. 104001. Publisher's Version
2020
Electron hydrodynamics in anisotropic materials

Electron hydrodynamics in anisotropic materials

Georgios Varnavides, Adam S. Jermyn, Polina Anikeeva, Claudia Felser, and Prineha Narang. 9/18/2020. “Electron hydrodynamics in anisotropic materials.” Nature Communications, 11, Pp. 4710. Publisher's Version
2020
Anisotropic scattering in the goniopolar metal NaSn2As2

Anisotropic scattering in the goniopolar metal NaSn2As2

Yaxian Wang and Prineha Narang. 9/15/2020. “Anisotropic scattering in the goniopolar metal NaSn2As2.” Physical Review B, 102, 12, Pp. 125122. Publisher's Version
2020

Unboxing Quantum Black Box Models: Learning Non-Markovian Dynamics

Stefan Krastanov, Kade Head-Marsden, Sisi Zhou, Steven T. Flammia, Liang Jiang, and Prineha Narang. 9/8/2020. “Unboxing Quantum Black Box Models: Learning Non-Markovian Dynamics.” arXiv. Publisher's Version
2020

ab initio polaritonic potential-energy surfaces for excited-state nonphotonics and polaritonic chemistry

Johannes Flick and Prineha Narang. 9/4/2020. “ab initio polaritonic potential-energy surfaces for excited-state nonphotonics and polaritonic chemistry.” The Journal of Chemical Physics, 153, Pp. 094116. Publisher's Version
2020

Bioinspiration in light harvesting and catalysis

Andrew H. Poppe, Yuguang C. Li, Alán Aspuru-Guzik, Curtis P. Berlinguette, Christopher J. Chang, Richard Cogdell, Abigail G. Doyle, Johannes Flick, Nathaniel M. Gabor, Rienk van Grondelle, Sharon Hammes-Schiffer, Shaffiq A. Jaffer, Shana O. Kelley, Mario Leclerc, Karl Leo, Thomas E. Mallouk, Prineha Narang, Gabriela S. Schlau-Cohen, Gregory D. Scholes, Aleksandra Vojvodic, Vivian Wing-Wah Yam, Jenny Y. Yang, and Edward H. Sargent. 8/7/2020. “Bioinspiration in light harvesting and catalysis.” Nature Reviews Materials. Publisher's Version
2020

Dynamic modulation of phonon-assisted transitions in quantum defects in monolayer transition-metal dichalcogenide semiconductors

Chitraleema Chakraborty, Christopher J. Ciccarino, and Prineha Narang. 7/28/2020. “Dynamic modulation of phonon-assisted transitions in quantum defects in monolayer transition-metal dichalcogenide semiconductors.” arXiv. Publisher's Version
2020
Plasmonics in Argentene

Plasmonics in Argentene

Ravishankar Sundararaman, Thomas Christensen, Yuan Ping, Nicholas Rivera, John D. Joannopoulos, Marin Soljačić, and Prineha Narang. 7/24/2020. “Plasmonics in Argentene.” Physical Review Materials, 4, 074011. Publisher's Version
2020

Shaken not strained

Dominik M. Juraschek and Prineha Narang. 6/22/2020. “Shaken not strained.” Nature Physics. Publisher's Version
2020
Selective control of photon-mediated qubit-qubit interactions

Selective control of photon-mediated qubit-qubit interactions

Tomáš Neuman, Matthew Trusheim, and Prineha Narang. 5/28/2020. “Selective control of photon-mediated qubit-qubit interactions.” Physical Review A, 101, 5, Pp. 052342. Publisher's Version
2020
Low-temperature electron-phonon interaction of quantum emitters in hexagonal Boron Nitride

Low-temperature electron-phonon interaction of quantum emitters in hexagonal Boron Nitride

Gabriele Grosso, Hyowon Moon, Christopher J. Ciccarino, Johannes Flick, Noah Mendelson, Milos Toth, Igor Aharonovich, Prineha Narang, and Dirk R. Englund. 5/8/2020. “Low-temperature electron-phonon interaction of quantum emitters in hexagonal Boron Nitride.” ACS Photonics. Publisher's Version
2020
Parametric excitation of an optically silent Goldstone-like phonon mode

Parametric excitation of an optically silent Goldstone-like phonon mode

Dominik M. Juraschek, Quintin N. Meier, and Prineha Narang. 3/16/2020. “Parametric excitation of an optically silent Goldstone-like phonon mode.” Physical Review Letters, 124, 117401. Publisher's Version
2020

Correlating the three-dimensional atomic defects and electronic properties of two-dimensional transition metal dichalcogenides

Xuezeng Tian, Dennis S. Kim, Shize Yang, Christopher J. Ciccarino, Yongji Gong, Yongsoo Yang, Yao Yang, Blake Duschatko, Yakun Yuan, Pulickel M. Ajayan, Juan-Carlos Idrobo, Prineha Narang, and Jianwei Miao. 3/9/2020. “Correlating the three-dimensional atomic defects and electronic properties of two-dimensional transition metal dichalcogenides.” Nature Materials. Publisher's Version
2020

Revealing multiple classes of stable quantum emitters in hexagonal boron nitride with correlated optical and electron microscopy

Fariah Hayee, Leo Yu, Jingyuan Linda Zhang, Christopher J. Ciccarino, Minh Nyugen, Ann F. Marshall, Igor Aharonovich, Jelena Vučković, Prineha Narang, Tony F. Heinz, and Jennifer A Dionne. 2/24/2020. “Revealing multiple classes of stable quantum emitters in hexagonal boron nitride with correlated optical and electron microscopy.” Nature Materials, 19, Pp. 534-539. Publisher's Version
2020
Axion-Field-Enabled Nonreciprocal Thermal Radiation in Weyl Semimetals

Axion-Field-Enabled Nonreciprocal Thermal Radiation in Weyl Semimetals

Bo Zhao, Cheng Guo, Christina A. C. Garcia, Prineha Narang, and Shanhui Fan. 2/19/2020. “Axion-Field-Enabled Nonreciprocal Thermal Radiation in Weyl Semimetals.” Nano Letters. Publisher's Version
2020
Optoelectronic Response of Type-I Weyl Semimetals TaAs and NbAs from First Principles

Optoelectronic Response of Type-I Weyl Semimetals TaAs and NbAs from First Principles

Christina A. C. Garcia, Jennifer Coulter, and Prineha Narang. 1/23/2020. “Optoelectronic Response of Type-I Weyl Semimetals TaAs and NbAs from First Principles.” Physical Review Research, 2, 013073. Publisher's Version
2020
Uncovering Electron-Phonon Scattering and Phonon Dynamics in Type-I Weyl Semimetals

Uncovering Electron-Phonon Scattering and Phonon Dynamics in Type-I Weyl Semimetals

Jennifer Coulter, Gavin B. Osterhoudt, Christina A. C. Garcia, Yiping Wang, Vincent Plisson, Bing Shen, Ni Ni, Kenneth S. Burch, and Prineha Narang. 12/24/2019. “Uncovering Electron-Phonon Scattering and Phonon Dynamics in Type-I Weyl Semimetals.” Physical Review B, 100, 220301(R). Publisher's Version
2019

Quantum Materials with Atomic Precision: Artificial Atoms in Solids: Ab Initio Design, Control, and Integration of Single Photon Emitters in Artificial Quantum Materials

Prineha Narang, Christopher J. Ciccarino, Johannes Flick, and Dirk Englund. 9/30/2019. “Quantum Materials with Atomic Precision: Artificial Atoms in Solids: Ab Initio Design, Control, and Integration of Single Photon Emitters in Artificial Quantum Materials.” Advanced Functional Materials. Publisher's Version
2019
Non-Equilibrium Phonon Transport Across Nanoscale Interfaces

Non-Equilibrium Phonon Transport Across Nanoscale Interfaces

Georgios Varnavides, Adam S. Jermyn, Polina Anikeeva, and Prineha Narang. 9/3/2019. “Non-Equilibrium Phonon Transport Across Nanoscale Interfaces.” Physical Review B., 100, 115402. Publisher's Version
2019

Phonon Polaritons in Monolayers of Hexagonal Boron Nitride

Siyuan Dai, Wenjing Fang, Nicholas Rivera, Yijing Stehle, Bor-Yuan Jiang, Jialang Shen, Roland Yingjie Tay, Christopher J. Ciccarino, Qiong Ma, Daniel Rodan‐Legrain, Pablo Jarillo‐Herrero, Edwin Hang Tong Teo, Michael M. Fogler, Prineha Narang, Jing Kong, and Dimitri N. Basov. 7/28/2019. “Phonon Polaritons in Monolayers of Hexagonal Boron Nitride.” Advanced Materials, 31, 37. Publisher's Version
2019
Transport of hot carriers in plasmonic nanostructures

Transport of hot carriers in plasmonic nanostructures

Adam S. Jermyn, Giulia Tagliabue, Harry A. Atwater, William A. Goddard III, Prineha Narang, and Ravishankar Sundararaman. 7/8/2019. “Transport of hot carriers in plasmonic nanostructures.” Physical Review Materials, 3, 075201. Publisher's Version
2019
Variational Theory of Nonrelativistic Quantum Electrodynamics

Variational Theory of Nonrelativistic Quantum Electrodynamics

Nicholas Rivera, Johannes Flick, and Prineha Narang. 5/16/2019. “Variational theory of non-relativistic quantum electrodynamics.” Physical Review Letters, 122, 193603. Publisher's Version
2019
Anti-Stokes excitation of solid-state quantum emitters for nanoscale thermometry

Anti-Stokes excitation of solid-state quantum emitters for nanoscale thermometry

Toan Trong Tran, Blake Regan, Evgeny A. Ekimov, Zhao Mu, Yu Zhou, Wei-bo Gao, Prineha Narang, Alexander S. Solntsev, Milos Toth, Igor Aharonovich, and Carlo Bradac. 5/3/2019. “Anti-Stokes excitation of solid-state quantum emitters for nanoscale thermometry.” Science Advances, 5, 5, Pp. eaav9180. Publisher's Version
2019
Ultrafast Electron Dynamics in Single Aluminum Nanostructures

Ultrafast Electron Dynamics in Single Aluminum Nanostructures

Man-Nung Su, Christopher J. Ciccarino, Sushant Kumar, Pratiksha D. Dongare, Seyyed Ali Hosseini Jebeli, David Renard, Yue Zhang, Behnaz Ostovar, Wei-Shun Chang, Peter Nordlander, Naomi J. Halas, Ravishankar Sundararaman, Prineha Narang, and Stephan Link. 4/2/2019. “Ultrafast Electron Dynamics in Single Aluminum Nanostructures.” Nano Letters. Publisher's Version
2019
Phonon polaritonics in two-dimensional materials

Phonon polaritonics in two-dimensional materials

Nicholas Rivera, Thomas Christensen, and Prineha Narang. 3/20/2019. “Phonon polaritonics in two-dimensional materials.” Nano Letters, 19, 4, Pp. 2653–2660. Publisher's Version
2019
Lead-Related Quantum Emitters in Diamond

Lead-Related Quantum Emitters in Diamond

Matthew E. Trusheim, Noel H. Wan, Kevin C. Chen, Christopher J. Ciccarino, Johannes Flick, Ravishankar Sundararaman, Girish Malladi, Eric Bersin, Michael Walsh, Benjamin Lienhard, Hassaram Bakhru, Prineha Narang, and Dirk Englund. 2/21/2019. “Lead-Related Quantum Emitters in Diamond.” Physical Review B, 99, 7. Publisher's Version
2019
Carrier dynamics and spin–valley–layer effects in bilayer transition metal dichalcogenides

Carrier dynamics and spin–valley–layer effects in bilayer transition metal dichalcogenides

Christopher J. Ciccarino, Chitraleema Chakraborty, Dirk R. Englund, and Prineha Narang. 11/26/2018. “Carrier dynamics and spin–valley–layer effects in bilayer transition metal dichalcogenides.” Faraday Discussions. Publisher's Version
2018

Qubit Allocation for Noisy Intermediate-Scale Quantum Computers

Will Finigan, Michael Cubeddu, Thomas Lively, Johannes Flick, and Prineha Narang. 10/18/2018. “Qubit Allocation for Noisy Intermediate-Scale Quantum Computers .” arXiv:1810.08291 [quant-ph]. Publisher's Version
2018
Microscopic origins of hydrodynamic transport in the type-II Weyl semimetal WP2

Microscopic origins of hydrodynamic transport in the type-II Weyl semimetal WP2

Jennifer Coulter, Ravishankar Sundararaman, and Prineha Narang. 2018. “Microscopic origins of hydrodynamic transport in the type-II Weyl semimetal WP2.” Physical Review B, 98, 11, Pp. 115130–. Publisher's Version
2018
Cavity-Correlated Electron-Nuclear Dynamics from First Principles

Cavity-Correlated Electron-Nuclear Dynamics from First Principles

Johannes Flick and Prineha Narang. 2018. “Cavity-Correlated Electron-Nuclear Dynamics from First Principles.” Physical Review Letters, 121, 11, Pp. 113002–.
2018

Strong light-matter coupling in quantum chemistry and quantum photonics

Flick Johannes, Rivera Nicholas, and Narang Prineha. 2018. “Strong light-matter coupling in quantum chemistry and quantum photonics.” Nanophotonics, 7, Pp. 1479.
2018

Ab initio calculation of phonon polaritons in silicon carbide and boron nitride

Nicholas Rivera, Jennifer Coulter, Thomas Christensen, and Prineha Narang. 8/31/2018. “Ab initio calculation of phonon polaritons in silicon carbide and boron nitride.” arXiv:1809.00058. Publisher's Version
2018
Dynamics and Spin-Valley Locking Effects in Monolayer Transition Metal Dichalcogenides

Dynamics and Spin-Valley Locking Effects in Monolayer Transition Metal Dichalcogenides

Christopher J. Ciccarino, Thomas Christensen, Ravishankar Sundararaman, and Prineha Narang. 2018. “Dynamics and Spin-Valley Locking Effects in Monolayer Transition Metal Dichalcogenides.” Nano Letters, 18, 9, Pp. 5709–5715.
2018
Quantum plasmons with optical-range frequencies in doped few-layer graphene

Quantum plasmons with optical-range frequencies in doped few-layer graphene

Sharmila N. Shirodkar, Marios Mattheakis, Paul Cazeaux, Prineha Narang, Marin Soljacic, and Efthimios Kaxiras. 2018. “Quantum plasmons with optical-range frequencies in doped few-layer graphene.” Phys. Rev. B, 97, Pp. 195435. Publisher's Version
2018
Increased rise time of electron temperature during adiabatic plasmon focusing

Increased rise time of electron temperature during adiabatic plasmon focusing

Olga Lozan, Ravishankar Sundararaman, Buntha Ea-Kim, Jean-Michel Rampnoux, Prineha Narang, Stefan Dilhaire, and Philippe Lalanne. 2017. “Increased rise time of electron temperature during adiabatic plasmon focusing.” Nature Communications, 8, 1, Pp. 1656.
2017
Plasmonic tunnel junctions for single-molecule redox chemistry

Plasmonic tunnel junctions for single-molecule redox chemistry

Bart de Nijs, Felix Benz, Steven J. Barrow, Daniel O. Sigle, Rohit Chikkaraddy, Aniello Palma, Cloudy Carnegie, Marlous Kamp, Ravishankar Sundararaman, Prineha Narang, Oren A. Scherman, and Jeremy J. Baumberg. 2017. “Plasmonic tunnel junctions for single-molecule redox chemistry.” Nature Communications, 8, 1, Pp. 994.
2017

Atom-by-atom fabrication by electron beam via induced phase transformations

N. Jiang, E. Zarkadoula, P. Narang, A. Maksov, I. Kravchenko, A. Borisevich, S. Jesse, and S. V. Kalinin. 2017. “Atom-by-atom fabrication by electron beam via induced phase transformations.” MRS Bulletin, 42, 9, Pp. 653-659. Publisher's Version
2017
Plasmonic hot electron transport drives nano-localized chemistry

Plasmonic hot electron transport drives nano-localized chemistry

Emiliano Cortés, Wei Xie, Javier Cambiasso, Adam S. Jermyn, Ravishankar Sundararaman, Prineha Narang, Sebastian Schlücker, and Stefan A. Maier. 2017. “Plasmonic hot electron transport drives nano-localized chemistry.” Nature Communications, 8, Pp. 14880 EP . Publisher's Version
2017
Effects of Interlayer Coupling on Hot Carrier Dynamics in Graphene-derived van der Waals Heterostructures

Effects of Interlayer Coupling on Hot Carrier Dynamics in Graphene-derived van der Waals Heterostructures

Prineha Narang, Litao Zhao, Steven Claybrook, and Ravishankar Sundararaman. 2017. “Effects of Interlayer Coupling on Hot Carrier Dynamics in Graphene-derived van der Waals Heterostructures.” Advanced Optical Materials. Publisher's Version
2017

How Light Is Emitted by Plasmonic Metals

J. Mertens, M.E. Kleemann, R. Chikkaraddy, P. Narang, and J. J Baumberg. 2017. “How Light Is Emitted by Plasmonic Metals.” Nano Letters, 17, 4, Pp. 2568-2574. Publisher's Version
2017
Experimental and Ab Initio Ultrafast Carrier Dynamics in Plasmonic Nanoparticles

Experimental and Ab Initio Ultrafast Carrier Dynamics in Plasmonic Nanoparticles

Ana M. Brown, Ravishankar Sundararaman, Prineha Narang, Adam M. Schwartzberg, William A. Goddard, and Harry A. Atwater. 2017. “Experimental and Ab Initio Ultrafast Carrier Dynamics in Plasmonic Nanoparticles.” Phys. Rev. Lett., 118, Pp. 087401. Publisher's Version
2017

Quantum plasmonics

J. M Fitzgerald, P. Narang, R. V Craster, S. A Maier, and V. Giannini. 2016. “Quantum plasmonics.” Proceedings of the IEEE, 104, 12, Pp. 2307-2322. Publisher's Version
2016
Ab initio phonon coupling and optical response of hot electrons in plasmonic metals

Ab initio phonon coupling and optical response of hot electrons in plasmonic metals

Ana M. Brown, Ravishankar Sundararaman, Prineha Narang, William A. Goddard, and Harry A. Atwater. 2016. “Ab initio phonon coupling and optical response of hot electrons in plasmonic metals.” Physical Review B, 94, 7, Pp. 075120–. Publisher's Version
2016
Cubic Nonlinearity Driven Up-Conversion in High-Field Plasmonic Hot Carrier Systems

Cubic Nonlinearity Driven Up-Conversion in High-Field Plasmonic Hot Carrier Systems

P. Narang, R. Sundararaman, A. S. Jermyn, W. A. Goddard, and H. A. Atwater. 2016. “Cubic Nonlinearity Driven Up-Conversion in High-Field Plasmonic Hot Carrier Systems.” J. Phys. Chem. C, 120, Pp. 21056. Publisher's Version
2016

Plasmonic hot carrier dynamics in solid-state and chemical systems for energy conversion

Narang Prineha, Sundararaman Ravishankar, and Atwater Harry A. 2016. “Plasmonic hot carrier dynamics in solid-state and chemical systems for energy conversion.” Nanophotonics, 5, Pp. 96. Publisher's Version
2016
Nonradiative Plasmon Decay and Hot Carrier Dynamics: Effects of Phonons, Surfaces, and Geometry

Nonradiative Plasmon Decay and Hot Carrier Dynamics: Effects of Phonons, Surfaces, and Geometry

Ana M. Brown, Ravishankar Sundararaman, Prineha Narang, William A. Goddard, and Harry A. Atwater. 2016. “Nonradiative Plasmon Decay and Hot Carrier Dynamics: Effects of Phonons, Surfaces, and Geometry.” ACS Nano, 10, 1, Pp. 957–966. Publisher's Version
2015
Cation-Mutation Design of Quaternary Nitride Semiconductors Lattice-Matched to GaN

Cation-Mutation Design of Quaternary Nitride Semiconductors Lattice-Matched to GaN

Zeng-Hua Cai, Prineha Narang, Harry A. Atwater, Shiyou Chen, Chun-Gang Duan, Zi-Qiang Zhu, and Jun-Hao Chu. 2015. “Cation-Mutation Design of Quaternary Nitride Semiconductors Lattice-Matched to GaN.” Chemistry of Materials, 27, 22, Pp. 7757–7764. Publisher's Version
2015

Applications of plasmonics: general discussion

Vladimir Bochenkov, Jeremy Baumberg, Mikhail Noginov, Felix Benz, Hasan Aldewachi, Silvan Schmid, Viktor Podolskiy, Javier Aizpurua, Kaiqiang Lin, Thomas Ebbesen, Alexei A Kornyshev, James Hutchison, Katarzyna Matczyszyn, Samir Kumar, Bart de Nijs, Francisco Rodriguez Fortuno, James T. Hugall, Pablo de Roque, Niek van Hulst, Santhosh Kotni, Olivier Martin, F. Javier Garcia de Abajo, Michael Flatte, Andrew Mount, Martin Moskovits, Pavel Ginzburg, David Zueco, Anatoly Zayats, Sang-Hyun Oh, Yu Chen, David Richards, Alessandro Belardini, and Prineha Narang. 2015. “Applications of plasmonics: general discussion.” Faraday Discuss., 178, Pp. 435-466.
2015
Theoretical predictions for hot-carrier generation from surface plasmon decay

Theoretical predictions for hot-carrier generation from surface plasmon decay

Ravishankar Sundararaman, Prineha Narang, Adam S. Jermyn, William A. Goddard III, and Harry A. Atwater. 2014. “Theoretical predictions for hot-carrier generation from surface plasmon decay.” Nature Communications, 5, Pp. 5788 . Publisher's Version
2014
Bandgap Tunability in Zn(Sn,Ge)N2 Semiconductor Alloys

Bandgap Tunability in Zn(Sn,Ge)N2 Semiconductor Alloys

Prineha Narang, Shiyou Chen, Naomi C. Coronel, Sheraz Gul, Junko Yano, Lin-Wang Wang, Nathan S. Lewis, and Harry A. Atwater. 2014. “Bandgap Tunability in Zn(Sn,Ge)N2 Semiconductor Alloys.” Advanced Materials, 26, 8, Pp. 1235–1241. Publisher's Version
2014