Journal Articles

2023

  • Modular chip-integrated photonic control of artificial atoms in diamond waveguides, Kevin J Palm, Mark Dong, D Andrew Golter, Genevieve Clark, Matthew Zimmermann, Kevin C Chen, Linsen Li, Adrian Menssen, Andrew J Leenheer, Daniel Dominguez, Gerald Gilbert, Matt Eichenfield, Dirk Englund, Optica, Vol. 10, Issue 5, pp. 634-641 2023.
  • High-Efficiency Three-Wave and Four-Wave Phonon Mixing Via Electron-Mediated Nonlinearity in Semiconductor-Piezoelectric Heterostructures, Lisa Hackett, Matthew Koppa, Brandon Smith, Michael Miller, Steven Santillan, Scott Weatherred, Shawn Arterburn, Thomas A Friedmann, Nils Otterstrom, Matt Eichenfield, arXiv preprint arXiv:2305.01600, 2023.
  • Programmable photonic integrated meshes for modular generation of optical entanglement links, Mark Dong, Matthew Zimmermann, David Heim, Hyeongrak Choi, Genevieve Clark, Andrew J Leenheer, Kevin J Palm, Alex Witte, Daniel Dominguez, Gerald Gilbert, Matt Eichenfield, Dirk Englund, npj Quantum Information 9 (1), 42, 2023.
  • Modulation of Brillouin optomechanical interactions via acoustoelectric phonon-electron coupling, Nils T Otterstrom, Matthew J Storey, Ryan O Behunin, Lisa Hackett, Peter T Rakich, Matt Eichenfield, Physical Review Applied, 19, 014059, 19, 1, 014059, 2023.
  • Non-reciprocal acoustoelectric microwave amplifiers with net gain and low noise in continuous operation, Lisa Hackett, Michael Miller, Scott Weatherred, Shawn Arterburn, Matthew J Storey, Greg Peake, Daniel Dominguez, Patrick S Finnegan, Thomas A Friedmann, Matt Eichenfield, Nature Electronics, 6, 76–85, 2023.

2022

  • Modular chip-integrated photonic control of artificial atoms in diamond nanostructures, Kevin J Palm, Mark Dong, D Andrew Golter, Genevieve Clark, Matthew Zimmermann, Kevin C Chen, Linsen Li, Adrian Menssen, Andrew J Leenheer, Daniel Dominguez, Gerald Gilbert, Matt Eichenfield, Dirk Englund, arXiv:2301.03693, 2022.
  • Intermodal strong coupling and wideband, low-loss isolation in silicon, Yishu Zhou, Freek Ruesink, Shai Gertler, Haotian Cheng, Margaret Pavlovich, Eric Kittlaus, Andrew L Starbuck, Andrew J Leenheer, Andrew T Pomerene, Douglas C Trotter, Christina Dallo, Katherine M Musick, Eduardo Garcia, Robert Reyna, Andrew L Holterhoff, Michael Gehl, Ashok Kodigala, Matt Eichenfield, Nils T Otterstrom, Anthony L Lentine, Peter Rakich, arXiv:2211.05864, 2022.
  • High-fidelity trapped-ion qubit operations with scalable photonic modulators, Craig W Hogle, Daniel Dominguez, Mark Dong, Andrew Leenheer, Hayden J McGuinness, Brandon P Ruzic, Matthew Eichenfield, Daniel Stick, arXiv:2210.14368, 2022.
  • Reconfigurable quantum phononic circuits via piezo-acoustomechanical interactions, Taylor, Jeffrey C; Chatterjee, Eric; Kindel, William F; Soh, Daniel; Eichenfield, Matt; npj Quantum Information,8,1,12-Jan, 2022.
  • High-speed programmable photonic circuits in a cryogenically compatible, visible–near-infrared 200 mm CMOS architecture, Dong, Mark; Clark, Genevieve; Leenheer, Andrew J; Zimmermann, Matthew; Dominguez, Daniel; Menssen, Adrian J; Heim, David; Gilbert, Gerald; Englund, Dirk; Eichenfield, Matt; Nature Photonics,16,1,59-65, 2022.
  • Optimal quantum transfer from input flying qubit to lossy quantum memory, Chatterjee, Eric; Soh, Daniel; Eichenfield, Matt; Journal of Physics A: Mathematical and Theoretical,55,10,105302, 2022.
  • Multiplexed control of spin quantum memories in a photonic circuit, Golter, D Andrew; Clark, Genevieve; Dandachi, Tareq El; Krastanov, Stefan; Leenheer, Andrew J; Wan, Noel H; Raniwala, Hamza; Zimmermann, Matthew; Dong, Mark; Chen, Kevin C; arXiv preprint arXiv:2209.11853, 2022.
  • Scalable photonic integrated circuits for programmable control of atomic systems, Menssen, Adrian J; Hermans, Artur; Christen, Ian; Propson, Thomas; Li, Chao; Leenheer, Andrew J; Zimmermann, Matthew; Dong, Mark; Larocque, Hugo; Raniwala, Hamza; arXiv preprint arXiv:2210.03100, 2022.
  • Low-noise acoustoelectric microwave amplifiers with net gain in continuous operation, Hackett, Lisa; Miller, Michael; Weatherred, Scott; Arterburn, Shawn; Storey, Matthew; Peake, Greg; Dominguez, Daniel; Finnegan, Patrick; Friedmann, Thomas A; Eichenfield, Matt; arXiv preprint arXiv:2203.10608, 2022.
  • A spin-optomechanical quantum interface enabled by an ultrasmall mechanical and optical mode volume cavity, Raniwala, Hamza; Krastanov, Stefan; Eichenfield, Matt; Englund, Dirk; arXiv preprint arXiv:2202.06999, 2022.
  • Spin-Phonon-Photon Strong Coupling in a Piezomechanical Nanocavity, Raniwala, Hamza; Krastanov, Stefan; Hackett, Lisa; Eichenfield, Matt; Englund, Dirk R; Trusheim, Matthew E; arXiv preprint arXiv:2202.11291, 2022.

2021

  • Towards single-chip radiofrequency signal processing via acoustoelectric electron–phonon interactions, Hackett, Lisa; Miller, Michael; Brimigion, Felicia; Dominguez, Daniel; Peake, Greg; Tauke-Pedretti, Anna; Arterburn, Shawn; Friedmann, Thomas A.; Eichenfield, Matt; Nature Communications,12,1, 2769, 2021.
  • A phononic interface between a superconducting quantum processor and quantum networked spin memories, Neuman, Tomáš; Eichenfield, Matt; Trusheim, Matthew E; Hackett, Lisa; Narang, Prineha; Englund, Dirk; npj Quantum Information,7,1,8-Jan, 2021.
  • Modulation of Brillouin optomechanical interactions via acoustoelectric phonon-electron coupling, Otterstrom, Nils T; Storey, Matthew J; Behunin, Ryan O; Hackett, Lisa; Rakich, Peter T; Eichenfield, Matt; arXiv preprint arXiv:2111.01020, 2021.
  • High-fidelity state transfer between leaky quantum memories, Soh, Daniel; Chatterjee, Eric; Eichenfield, Matt; Physical Review Research,3,3,33027, 2021.
  • Active Nonreciprocal and Nonlinear Surface Acoustic Wave Devices in a Heterogeneously Integrated InGaAs on Lithium Niobate Material Platform., Hackett, Lisa Anne Plucinski; Miller, Michael Ross; Storey, Matthew Joseph; Dominguez, Daniel; Brimigion, Felicia Marie; DiGregorio, Sara; Peake, Gregory M; Tauke-Pedretti, Anna; Arterburn, Shawn; Friedmann, Thomas A; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States) 2021.
  • Designing an Acoustoelectric Qubit., Chatterjee, Eric NMN; Soh, Daniel Beom Soo; Eichenfield, Matt; Sandia National Lab (SNL-CA), Livermore, CA (United States) 2021.
  • Sandia Microsystem and Integration., Ruyack, Alexander; Siddiqui, Aleem; Hummel, Gwendolyn; Sorensen, Kurt W; Forbes, Travis; Nordquist, Christopher; Eichenfield, Matt; 2021.

2020

  • Comparison of amplification via the acousto-electric effect of Rayleigh and Leaky-SAW modes in a monolithic surface InP: InGaAs/lithium niobate heterostructure, Siddiqui, Aleem M; Hackett, Lisa P; Dominguez, Daniel; Tauke-Pedretti, Anna; Friedmann, Tom; Peake, Gregory; Miller, Michael R; Douglas, James K; Eichenfield, Matt; Ferroelectrics,557,1,58-65, 2020.
  • Demonstration of an Acoustoelectric Surface Acoustic Wave Circulator., Hackett, Lisa Anne Plucinski; Miller, Michael Ross; Brimigion, Felicia Marie; Dominguez, Daniel; Peake, Gregory M; Tauke-Pedretti, Anna; Arterburn, Shawn; Friedmann, Thomas A; Eichenfield, Matt; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States) 2020.
  • A phononic bus for coherent interfaces between a superconducting quantum processor, spin memory, and photonic quantum networks, Neuman, Tomas; Eichenfield, Matt; Trusheim, Matthew; Hackett, Lisa; Narang, Prineha; Englund, Dirk; arXiv preprint arXiv:2003.08383, 2020.
  • Deployable Cold Atom Interferometry Sensor Platforms Based On Diffractive Optics and Integrated Photonics., Lee, Jongmin; Sandia National Lab. (SNL-NM), Albuquerque, NM (United States) 2020.

2019

  • Investigation of a solid-state tuning behavior in lithium niobate, Branch, Darren W; Jensen, Daniel S; Nordquist, Christopher D; Siddiqui, Aleem; Douglas, James K; Eichenfield, Matthew; Friedmann, Thomas A; IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control67, 2,365-373, 2019.
  • High-gain leaky surface acoustic wave amplifier in epitaxial InGaAs on lithium niobate heterostructure, Hackett, Lisa; Siddiqui, A; Dominguez, D; Douglas, JK; Tauke-Pedretti, A; Friedmann, T; Peake, G; Arterburn, S; Eichenfield, Matt; Applied Physics Letters,114, 25, 253503, 2019.
  • CMOS-compatible, piezo-optomechanically tunable photonics for visible wavelengths and cryogenic temperatures, Stanfield, PR; Leenheer, AJ; Michael, CP; Sims, R; Eichenfield, M; Optics Express, 27, 20, 28588-28605, 2019.
  • Active and Nonreciprocal Radio-Frequency Acoustic Microsystems., Hackett, Lisa Anne Plucinski; Siddiqui, Aleem; Dominguez, Daniel; Douglas, James Kenneth; Tauke-Pedretti, Anna; Friedmann, Thomas A; Peake, Gregory M; Arterburn, Shawn; Miller, Michael Ross; Eichenfield, Matt; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2019.
  • Material Device and Integration Challenges for High-Frequency Piezoelectric Microresonators., Nordquist, Christopher; Henry, Michael David; Branch, Darren W; Esteves, Giovanni; Siddiqui, Aleem; Eichenfield, Matt; Reger, Robert William; Edstrand, Adam; Knisely, Katherine; Pluym, Tammy; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2019.
  • Optimization of Si-Photonics Compatible AlN waveguides for Integrated Nonlinear Optics Applications., Dominguez, Daniel; Sims, Ryan Michael; Stanfield, Paul; Leenheer, Andrew Jay; Eichenfield, Matt; Siddiqui, Aleem; Michael, Christopher; Hackett, Lisa Anne Plucinski; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2019.

2018

  • Monolithic Surface Acoustic Wave Amplifier on State-of-the-Art InP: InGaAs/Lithium Niobate Heterostructure., Siddiqui, Aleem; Hackett, Lisa Anne Plucinski; Dominguez, Daniel; Friedmann, Thomas A; Tauke-Pedretti, Anna; Douglas, James Kenneth; Eichenfield, Matt; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2018.
  • LARGE GAIN IN GATED MONOLITHIC SURFACE ACOUSTIC WAVE AMPLIIFER ON HETEROGENOUSLY INTEGRATED III-V EPITAXIAL SEMICONDUCTOR AND LITHIUM NIOBATE., Siddiqui, Aleem; Hackett, Lisa Anne Plucinski; Dominguez, Daniel; Friedmann, Thomas A; Tauke-Pedretti, Anna; Douglas, James Kenneth; Eichenfield, Matt; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2018.
  • Waveform optimization for resonantly driven MEMS switches electrostatically biased near pull-in, Siddiqui, Aleem M; Nordquist, Christopher D; Grine, Alejandro; Lepkowsk, Stefan; Henry, M David; Eichenfield, Matt; Griffin, Benjamin A; 2018 IEEE Micro Electro Mechanical Systems (MEMS),795-800, 2018.
  • Lamb wave focusing transducer for efficient coupling to wavelength-scale structures in thin piezoelectric films, Siddiqui, Aleem; Olsson, Roy H; Eichenfield, Matthew; Journal of Microelectromechanical Systems, 27,6,1054-1070, 2018.

2017

  • Electro-optic modulation of high-Q lithium niobate whispering gallery resonator with integrated ground plane., Douglas, James Kenneth; Friedmann, Thomas A; Eichenfield, Matt; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2017.
  • Characterizations of SiN and AlN microfabricated waveguides., Lee, Jongmin; Eichenfield, Matt; Douglas, Erica Ann; Mudrick, John; Biedermann, Grant; Jau, Yuan-Yu; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2017.

2016

  • Entangled Photon Generation in Lithium Niobate Microdisk Resonators Through Spontaneous Parametric Down Conversion., Moore, Jeremy; Frank, Ian; Douglas, James Kenneth; Camacho, Ryan; Eichenfield, Matt; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States) 2016.
  • Regular oscillations and random motion of glass microspheres levitated by a single optical beam in air: publisher’s note, Moore, Jeremy; Martin, Leopoldo L; Maayani, Shai; Kim, Kyu Hyun; Chandrahalim, Hengky; Eichenfield, Matt; Martin, Inocencio R; Carmon, Tal; Optics Express, 24,4,4349-4349, 2016.
  • Regular oscillations and random motion of glass microspheres levitated by a single optical beam in air, Moore, Jeremy; Martin, Leopoldo L; Maayani, Shai; Kim, Kyu Hyun; Chandrahalim, Hengky; Eichenfield, Matt; Martin, Inocencio R; Carmon, Tal; Optics Express, 24,3, 2850-2857, 2016.

2015

  • Towards Synthesis of UV lasers using doubly-resonant ultra-thin LiNbO3 microdisk resonators., Douglas, James Kenneth; Moore, Jeremy; Friedmann, Thomas A; Padilla, Camille; Eichenfield, Matt; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States) 2015.
  • Acoustoelectric Devices: Then and Now., Eichenfield, Matt; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States) 2015.

2014

  • A high electromechanical coupling coefficient SH0 Lamb wave lithium niobate micromechanical resonator and a method for fabrication, Olsson III, Roy H; Hattar, Khalid; Homeijer, Sara J; Wiwi, Michael; Eichenfield, Matthew; Branch, Darren W; Baker, Michael S; Nguyen, Janet; Clark, Blythe; Bauer, Todd; Sensors and Actuators A: Physical, 209,183-190, 2014.
  • Lithium Niobate Micromachining for On-Chip Photonics., Moore, Jeremy; Friedmann, Thomas A; Hattar, Khalid Mikhiel; Douglas, James Kenneth; Wiwi, Michael; Padilla, Camille; Camacho, Ryan; Eichenfield, Matt; Sandia National Lab. (SNL-NM), Albuquerque, NM (United States) 2014.
  • Development of MEMS photoacoustic spectroscopy, Robinson, Alex Lockwood; Eichenfield, Matthew S; Griffin, Benjamin; Harvey, Heidi Alyssa; Nielson, Gregory N; Okandan, Murat; Langlois, Eric; Resnick, Paul James; Shaw, Michael J; Young, Ian; Sandia National Lab.(SNL-NM), Albuquerque, NM (United States) 2014.

2013

  • Characterization of a 3-D Photonic Crystal Structure Using Port and S-Parameter Analysis, Dong, M; Tomes, M; Eichenfield, M; Jarrahi, M; Carmon, T; simulation, 2, 2,0, 2013.

2011

  • Electromagnetically induced transparency and slow light with optomechanics, Safavi-Naeini, Amir H; Alegre, TP; Chan, Jasper; Eichenfield, Matt; Winger, Martin; Lin, Qiang; Hill, Jeff T; Chang, Darrick E; Painter, Oskar; Nature,472,7341,69-73, 2011.

2010

  • Coherent mixing of mechanical excitations in nano-optomechanical structures, Lin, Qiang; Rosenberg, Jessie; Chang, Darrick; Camacho, Ryan; Eichenfield, Matt; Vahala, Kerry J; Painter, Oskar; Nature Photonics,4,4, 236-242, 2010.
  • Cavity optomechanics in photonic and phononic crystals: engineering the interaction of light and sound at the nanoscale, Eichenfield, Matt; 2010.

2009

  • A picogram-and nanometre-scale photonic-crystal optomechanical cavity, Eichenfield, Matt; Camacho, Ryan; Chan, Jasper; Vahala, Kerry J; Painter, Oskar; nature,459,7246,550-555, 2009.
  • Optical and mechanical design of a “zipper” photonic crystal optomechanical cavity, Chan, Jasper; Eichenfield, Matt; Camacho, Ryan; Painter, Oskar; Optics Express,17,5,3802-3817, 2009.
  • Modeling dispersive coupling and losses of localized optical and mechanical modes in optomechanical crystals, Eichenfield, Matt; Chan, Jasper; Safavi-Naeini, Amir H; Vahala, Kerry J; Painter, Oskar; Optics Express,17, 22, 20078-20098, 2009.
  • Characterization of radiation pressure and thermal effects in a nanoscale optomechanical cavity, Camacho, Ryan M; Chan, Jasper; Eichenfield, Matt; Painter, Oskar; Optics Express,17,18,15726-15735, 2009.
  • Optomechanical crystals, Eichenfield, Matt; Chan, Jasper; Camacho, Ryan M; Vahala, Kerry J; Painter, Oskar; Nature,462,7269,78-82, 2009.

2007

  • Actuation of micro-optomechanical systems via cavity-enhanced optical dipole forces, Eichenfield, Matt; Michael, Christopher P; Perahia, Raviv; Painter, Oskar; Nature Photonics,1,7,416-422, 2007.

2006

  • Titania-doped tantala/silica coatings for gravitational-wave detection, Harry, Gregory M; Abernathy, Matthew R; Becerra-Toledo, Andres E; Armandula, Helena; Black, Eric; Dooley, Kate; Eichenfield, Matt; Nwabugwu, Chinyere; Villar, Akira; Crooks, DRM; Classical and Quantum Gravity, 24, 2,405, 2006.

2003

  • Modeling and Commissioning the Wavefront Sensing Auto-Alignment System of a Triangular Mode Cleaner Cavity, Eichenfield, Matt; 2003