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View article: Chip-scale atomic birefringent diffractive-optical-elements
Chip-scale atomic birefringent diffractive-optical-elements Open
The interaction between light and vapors in the presence of magnetic fields is fundamental to many quantum technologies and applications. Recently, the ability to geometrically confine atoms into periodic structures has enabled the creatio…
View article: Quantum Co-Magnetometer Using Diamond Nitrogen-Vacancy Centers and Rubidium Cells
Quantum Co-Magnetometer Using Diamond Nitrogen-Vacancy Centers and Rubidium Cells Open
Recent advances in chip scale magnetic quantum sensing have produced platforms that pair unprecedented sensitivity with extreme miniaturization. Here, we demonstrate a hybrid quantum sensor by combining Nitrogen-Vacancy (NV) centers in dia…
View article: Hybrid-Locked Kerr Microcombs for Flexible On-Chip Optical Clock Division
Hybrid-Locked Kerr Microcombs for Flexible On-Chip Optical Clock Division Open
Optical atomic clocks deliver unrivaled precision, yet their size and complexity still confine them to specialized laboratories. Frequency combs provide the crucial optical-to-microwave division needed for clock readout, but conventional f…
View article: Subwavelength micromachined vapor-cell based Rydberg sensing
Subwavelength micromachined vapor-cell based Rydberg sensing Open
In recent years, micromachined vapor cells have been revolutionizing the field of chip-scale quantum sensors such as magnetometers and atomic clocks. In parallel, Rydberg atomic quantum sensing has emerged as a powerful technique for broad…
View article: Chip-Scale Atomic Birefringent Diffractive-Optical-Elements
Chip-Scale Atomic Birefringent Diffractive-Optical-Elements Open
The interaction between light and vapors in the presence of magnetic fields is fundamental to many quantum technologies and applications. Recently, the ability to geometrically confine atoms into periodic structures has enabled the creatio…
View article: Broadband cavity-enhanced Kerr Comb spectroscopy on Chip
Broadband cavity-enhanced Kerr Comb spectroscopy on Chip Open
The broad and equidistant spectrum of frequency combs has had a profound impact on spectroscopic studies. Particularly, experiments involving the coupling of frequency combs to cavities have already enabled unprecedented broadband and sens…
View article: Remote chip-scale quantum sensing of magnetic fields
Remote chip-scale quantum sensing of magnetic fields Open
Quantum sensing is an ever-evolving research field describing the use of a quantum phenomenon to perform measurement of a physical quantity. Amongst different types of quantum sensors, atomic vapor-based quantum effects are extensively use…
View article: Plasmonic-enhanced multiparameter direct microcomb spectroscopy
Plasmonic-enhanced multiparameter direct microcomb spectroscopy Open
Sensitive spectroscopic analyses of molecular systems are being revolutionized utilizing the broad, equidistant spectra of frequency combs. Recently, photonically integrated frequency combs have emerged through low-power continuous laser p…
View article: Laser Offset Stabilization with Chip-Scale Atomic Diffractive Elements
Laser Offset Stabilization with Chip-Scale Atomic Diffractive Elements Open
Achieving precise and adjustable control over laser frequency is an essential requirement in numerous applications such as precision spectroscopy, quantum control, and sensing. In many such applications it is desired to stabilize a laser w…
View article: Broadband Cavity-Enhanced Kerr Comb Spectroscopy on Chip
Broadband Cavity-Enhanced Kerr Comb Spectroscopy on Chip Open
The broad and equidistant spectrum of frequency combs has had a profound impact on spectroscopic studies. Particularly, experiments involving the coupling of frequency combs to cavities have already enabled unprecedented broadband and sens…
View article: Remote Chip-Scale Quantum Sensing of Magnetic Fields
Remote Chip-Scale Quantum Sensing of Magnetic Fields Open
Quantum sensing is an ever-evolving research field describing the use of a quantum phenomenon to perform measurement of a physical quantity. Amongst different types of quantum sensors, atomic vapor-based quantum effects are extensively use…
View article: On-chip multivariant COVID 19 photonic sensor based on silicon nitride double-microring resonators
On-chip multivariant COVID 19 photonic sensor based on silicon nitride double-microring resonators Open
Coronavirus disease 2019 (COVID-19) is a newly emerging human infectious disease that continues to develop new variants. A crucial step in the quest to reduce the infection is the development of rapid and reliable virus detectors. Here, we…
View article: Large cooperativity in strongly coupled chip-scale photonic-atomic integrated system
Large cooperativity in strongly coupled chip-scale photonic-atomic integrated system Open
The miniaturization of atomic quantum systems and their integration into silicon microchips paves the way for a wide variety of applications in quantum computing, metrology and magnetometry. A particular interest is found in the integratio…
View article: Nanoscale Photonic Waveguides: A Chip‐Scale Optical Frequency Reference for the Telecommunication Band Based on Acetylene (Laser Photonics Rev. 14(6)/2020)
Nanoscale Photonic Waveguides: A Chip‐Scale Optical Frequency Reference for the Telecommunication Band Based on Acetylene (Laser Photonics Rev. 14(6)/2020) Open
Lasers stabilized to known transitions between energy levels in well-isolated quantum systems are essential for numerous applications, e.g. in metrology, optical communications, and sensing. In article number 1900414, Uriel Levy, Roy Zektz…
View article: A Chip‐Scale Optical Frequency Reference for the Telecommunication Band Based on Acetylene
A Chip‐Scale Optical Frequency Reference for the Telecommunication Band Based on Acetylene Open
Lasers precisely stabilized to known transitions between energy levels in simple, well‐isolated quantum systems such as atoms and molecules are essential for a plethora of applications in metrology and optical communications. The implement…
View article: Ultranarrow Linewidth Photonic‐Atomic Laser
Ultranarrow Linewidth Photonic‐Atomic Laser Open
Lasers with high spectral purity can enable a diverse application space, including precision spectroscopy, coherent high‐speed communications, physical sensing, and manipulation of quantum systems. Already, meticulous design and constructi…
View article: Direct Kerr frequency comb atomic spectroscopy and stabilization
Direct Kerr frequency comb atomic spectroscopy and stabilization Open
Orthogonal control of both degrees of freedom of a Kerr comb soliton allows high-precision atomic spectroscopy and stabilization.
View article: Publisher Correction: Chip-scale atomic diffractive optical elements
Publisher Correction: Chip-scale atomic diffractive optical elements Open
An amendment to this paper has been published and can be accessed via a link at the top of the paper.
View article: Ultranarrow linewidth photonic-atomic laser
Ultranarrow linewidth photonic-atomic laser Open
Lasers with high spectral purity can enable a diverse application space, including precision spectroscopy, coherent high-speed communications, physical sensing, and manipulation of quantum systems. Already, meticulous design and constructi…
View article: Direct Kerr-frequency-comb atomic spectroscopy
Direct Kerr-frequency-comb atomic spectroscopy Open
Microresonator-based soliton frequency combs - microcombs - have recently emerged to offer low-noise, photonic-chip sources for optical measurements. Owing to nonlinear-optical physics, microcombs can be built with various materials and tu…
View article: Enhanced light–matter interactions in plasmonic–molecular gas hybrid system
Enhanced light–matter interactions in plasmonic–molecular gas hybrid system Open
Fascinating phenomena have been demonstrated in plasmonic materials due to their enhanced light–matter interaction and high sensitivity. Surface plasmon resonance (SPR), where resonance is obtained for a specific combination of angle and w…
View article: Enhanced light matter interactions in plasmonic- molecular gas hybrid system
Enhanced light matter interactions in plasmonic- molecular gas hybrid system Open
Following the excellent merits of plasmonics, such as enhanced light-matter interactions, and large sensitivity, myriad of fascinating phenomena have been demonstrated. A commonly used plasmonic configuration is the surface plasmon resonan…
View article: Chip-scale atomic diffractive optical elements
Chip-scale atomic diffractive optical elements Open
The efficient light–matter interaction and discrete level structure of atomic vapors made possible numerous seminal scientific achievements including time-keeping, extreme non-linear interactions, and strong coupling to electric and magnet…
View article: Magnetically Controlled Atomic–Plasmonic Fano Resonances
Magnetically Controlled Atomic–Plasmonic Fano Resonances Open
Following the efforts of size reduction and the integration of light and vapor systems, great promise is held in the integration of vapor and confined electromagnetic waves. By confining light to nanoscale dimensions, fundamental propertie…
View article: Fluorescence double resonance optical pumping spectrum and its application for frequency stabilization in millimeter scale vapor cells
Fluorescence double resonance optical pumping spectrum and its application for frequency stabilization in millimeter scale vapor cells Open
In recent years, we are observing substantial efforts towards the miniaturization of atomic cells to a millimeter scale and below, with the ultimate goal of enabling efficient and compact light vapor interactions. However, such miniaturiza…
View article: Ultra-precise optical to radio frequency based chip-scale refractive index and temperature sensor
Ultra-precise optical to radio frequency based chip-scale refractive index and temperature sensor Open
Chip-scale high-precision measurements of physical quantities such as temperature, pressure, refractive index, and analytes have become common with nanophotonics and nanoplasmonics resonance cavities. Despite several important accomplishme…
View article: Enhanced light‐vapor interactions and all optical switching in a chip scale micro‐ring resonator coupled with atomic vapor
Enhanced light‐vapor interactions and all optical switching in a chip scale micro‐ring resonator coupled with atomic vapor Open
The coupling of atomic and photonic resonances serves as an important tool for enhancing light‐matter interactions and enables the observation of multitude of fascinating and fundamental phenomena. Here, by exploiting the platform of atomi…
View article: Controlling the interactions of space-variant polarization beams with rubidium vapor using external magnetic fields
Controlling the interactions of space-variant polarization beams with rubidium vapor using external magnetic fields Open
Space variant beams are of great importance for a variety of applications that have emerged in recent years. As such, manipulation of their degrees of freedom is highly desired. Here, we study the general interaction of space variant beams…