Search

Your search keyword '"Sedlmeir, Florian"' showing total 125 results
Start Over Author "Sedlmeir, Florian"
125 results on '"Sedlmeir, Florian"'

1. Eavesdropper localization for quantum and classical channels via nonlinear scattering

Author

Popp, Alexandra, Sedlmeir, Florian, Stiller, Birgit, and Marquardt, Christoph

Subjects
Quantum Physics, Physics - Optics
Abstract

Optical fiber networks are part of important critical infrastructure and known to be prone to eavesdropping attacks. Hence cryptographic methods have to be used to protect communication. Quantum key distribution (QKD), at its core, offers information theoretical security based on the laws of physics. In deployments one has to take into account practical security and resilience. The latter includes the localization of a possible eavesdropper after an anomaly has been detected by the QKD system to avoid denial-of-service. Here, we present a novel approach to eavesdropper location that can be employed in quantum as well as classical channels using stimulated Brillouin scattering. The tight localization of the acoustic wave inside the fiber channel using correlated pump and probe waves allows to discover the coordinates of a potential threat within centimeters. We demonstrate that our approach outperforms conventional OTDR in the task of localizing an evanescent outcoupling of 1% with cm precision inside standard optical fibers. The system is furthermore able to clearly distinguish commercially available standard SMF28 from different manufacturers, paving the way for fingerprinted fibers in high security environments.

Published
2023

2. Nonlinear power dependence of the spectral properties of an optical parametric oscillator below threshold in the quantum regime

Author

Shafiee, Golnoush, Strekalov, Dmitry V., Otterpohl, Alexander, Sedlmeir, Florian, Schunk, Gerhard, Vogl, Ulrich, Schwefel, Harald G. L., Leuchs, Gerd, and Marquardt, Christoph

Subjects
Physics - Optics, Quantum Physics
Abstract

Photon pairs and heralded single photons, obtained from cavity-assisted parametric down-conversion (PDC), play an important role in quantum communications and technology. This motivated a thorough study of the spectral and temporal properties of parametric light, both above the Optical Parametric Oscillator (OPO) threshold, where the semiclassical approach is justified, and deeply below it, where the linear cavity approximation is applicable. The pursuit of a higher two-photon emission rate leads into an interesting intermediate regime where the OPO still operates considerably below the threshold but the nonlinear cavity phenomena cannot be neglected anymore. Here, we investigate this intermediate regime and show that the spectral and temporal properties of the photon pairs, as well as their emission rate, may significantly differ from the widely accepted linear model. The observed phenomena include frequency pulling and broadening in the temporal correlation for the down-converted optical fields. These factors need to be taken into account when devising practical applications of the high-rate cavity-assisted SPDC sources.

Published
2019
Full Text
View/download PDF

3. Quantum-limited measurements of intensity noise levels in Yb-doped fiber amplifiers

Author

Popp, Alexandra, Distler, Victor, Jaksch, Kevin, Sedlmeir, Florian, Müller, Christian R., Haarlammert, Nicoletta, Schreiber, Thomas, Marquardt, Christoph, Tünnermann, Andreas, and Leuchs, Gerd

Subjects
Physics - Optics, Quantum Physics
Abstract

We investigate the frequency-resolved intensity noise spectrum of an Yb-doped fiber amplifier down to the fundamental limit of quantum noise. We focus on the kHz and low MHz frequency regime with special interest in the region between 1 and 10 kHz. Intensity noise levels up to >60 dB above the shot noise limit are found, revealing great optimization potential. Additionally, two seed lasers with different noise characteristics were amplified, showing that the seed source has a significant impact and should be considered in the design of high power fiber amplifiers.

Published
2019
Full Text
View/download PDF

4. Coherent conversion between microwave and optical photons -- an overview of physical implementations

Author

Lambert, Nicholas J., Rueda, Alfredo, Sedlmeir, Florian, and Schwefel, Harald G. L.

Subjects
Physics - Optics, Quantum Physics
Abstract

Quantum information technology based on solid state qubits has created much interest in converting quantum states from the microwave to the optical domain. Optical photons, unlike microwave photons, can be transmitted by fiber, making them suitable for long distance quantum communication. Moreover, the optical domain offers access to a large set of very well developed quantum optical tools, such as highly efficient single-photon detectors and long-lived quantum memories. For a high fidelity microwave to optical transducer, efficient conversion at single photon level and low added noise is needed. Currently, the most promising approaches to build such systems are based on second order nonlinear phenomena such as optomechanical and electro-optic interactions. Alternative approaches, although not yet as efficient, include magneto-optical coupling and schemes based on isolated quantum systems like atoms, ions or quantum dots. In this Progress Report, we provide the necessary theoretical foundations for the most important microwave-to-optical conversion experiments, describe their implementations and discuss current limitations and future prospects., Comment: 17 Pages, 8 Figures

Published
2019
Full Text
View/download PDF

5. Squeezed vacuum states from a whispering gallery mode resonator

Author

Otterpohl, Alexander, Sedlmeir, Florian, Vogl, Ulrich, Dirmeier, Thomas, Shafiee, Golnoush, Schunk, Gerhard, Strekalov, Dmitry V., Schwefel, Harald G. L., Gehring, Tobias, Andersen, Ulrik L., Leuchs, Gerd, and Marquardt, Christoph

Subjects
Quantum Physics
Abstract

Squeezed vacuum states enable optical measurements below the quantum limit and hence are a valuable resource for applications in quantum metrology and also quantum communication. However, most available sources require high pump powers in the milliwatt range and large setups, which hinders real world applications. Furthermore, degenerate operation of such systems presents a challenge. Here, we use a compact crystalline whispering gallery mode resonator made of lithium niobate as a degenerate parametric oscillator. We demonstrate about 1.4 dB noise reduction below the shot noise level for only 300 $\mu\text{W}$ of pump power in degenerate single mode operation. Furthermore, we report a record pump threshold as low as 1.35 $\mu\text{W}$. Our results show that the whispering gallery based approach presents a promising platform for a compact and efficient source for nonclassical light., Comment: $\copyright$ 2019 Optical Society of America. Users may use, reuse, and build upon the article, or use the article for text or data mining, so long as such uses are for non-commercial purposes and appropriate attribution is maintained. All other rights are reserved

Published
2019
Full Text
View/download PDF

6. Resonant Electro-Optic Frequency Comb

Author

Rueda, Alfredo, Sedlmeir, Florian, Kumari, Madhuri, Leuchs, Gerd, and Schwefel, Harald G. L.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

High speed optical telecommunication is enabled by wavelength division multiplexing, whereby hundreds of individually stabilized lasers encode the information within a single mode optical fiber. In the seek for larger bandwidth the optical power sent into the fiber is limited by optical non-linearities within the fiber and energy consumption of the light sources starts to become a significant cost factor. Optical frequency combs have been suggested to remedy this problem by generating multiple laser lines within a monolithic device, their current stability and coherence lets them operate only in small parameter ranges. Here we show that a broadband frequency comb realized through the electro-optic effect within a high quality whispering gallery mode resonator can operate at low microwave and optical powers. Contrary to the usual third order Kerr non-linear optical frequency combs we rely on the second order non-linear effect which is much more efficient. Our result uses a fixed microwave signal which is mixed with an optical pump signal to generate a coherent frequency comb with a precisely determined carrier separation. The resonant enhancement enables us to operate with microwave powers three order magnitude smaller than in commercially available devices. We can expect the implementation into the next generation long distance telecommunication which relies on coherent emission and detection schemes to allow for operation with higher optical powers and at reduced cost.

Published
2018
Full Text
View/download PDF

7. More efficient second harmonic generation of whispering gallery modes by selective out-coupling

Author

Trainor, Luke S., Sedlmeir, Florian, Peuntinger, Christian, and Schwefel, Harald G. L.

Subjects
Physics - Optics
Abstract

We demonstrate second harmonic generation (SHG) in an $x$-cut congruent lithium niobate (LN) whispering gallery mode resonator. We first show theoretically that independent control of the coupling of the pump and signal modes is optimal for high conversion rates. A scheme based on our earlier work in Ref. [1] is then implemented experimentally to verify this. Thereby we are able to improve on the efficiency of SHG by more than an order of magnitude by selectively out-coupling using a LN prism, utilizing the birefringence of it and the resonator in kind. We report 5.28%/mW efficiency for SHG from 1555.4 nm to 777.7 nm., Comment: 6 pages, 4 figures

Published
2017
Full Text
View/download PDF

8. Polarization-selective out-coupling of whispering gallery modes

Author

Sedlmeir, Florian, Foreman, Matthew R., Vogl, Ulrich, Zeltner, Richard, Schunk, Gerhard, Strekalov, Dmitry V., Marquardt, Christoph, Leuchs, Gerd, and Schwefel, Harald G. L.

Subjects
Physics - Optics
Abstract

Whispering gallery mode (WGM) resonators are an important building block for linear, nonlinear and quantum optical experiments. In such experiments, independent control of coupling rates to different modes can lead to improved conversion efficiencies and greater flexibility in generation of non-classical states based on parametric down conversion. In this work, we introduce a scheme which enables selective out-coupling of WGMs belonging to a specific polarization family, while the orthogonally polarized modes remain largely unperturbed. Our technique utilizes material birefringence in both the resonator and coupler such that a negative (positive) birefringence allows selective coupling to TE (TM) polarized WGMs. We formulate a new coupling condition suitable for describing the case where the refractive indices of the resonator and the coupler are almost the same, from which we derive the criterion for polarization-selective coupling. We experimentally demonstrate our proposed method using a lithium niobate disk resonator coupled to a lithium niobate prism, where we show a 22dB suppression of coupling to TM modes relative to TE modes.

Published
2016
Full Text
View/download PDF

9. Dielectric tuning and coupling of whispering gallery modes using an anisotropic prism

Author

Foreman, Matthew R., Sedlmeir, Florian, Schwefel, Harald G. L., and Leuchs, Gerd

Subjects
Physics - Optics
Abstract

Optical whispering gallery mode (WGM) resonators are a powerful and versatile tool used in many branches of science. Fine tuning of the central frequency and line width of individual resonances is however desirable in a number of applications including frequency conversion, optical communications and efficient light-matter coupling. To this end we present a detailed theoretical analysis of dielectric tuning of WGMs supported in axisymmetric resonators. Using the Bethe-Schwinger equation and adopting an angular spectrum field representation we study the resonance shift and mode broadening of high $Q$ WGMs when a planar dielectric substrate is brought close to the resonator. Particular focus is given to use of a uniaxial substrate with an arbitrarily aligned optic axis. Competing red and blue resonance shifts ($\sim 30$ MHz), deriving from generation of a near field material polarisation and back action from the radiation continuum respectively, are found. Anomalous resonance shifts can hence be observed depending on the substrate material, whereas mode broadening on the order of $\sim 50$ MHz can also be simply realised. Furthermore, polarisation selective coupling with extinction ratios of $> 10^4$ can be achieved when the resonator and substrate are of the same composition and their optic axes are chosen correctly. Double refraction and properties of out-coupled beams are also discussed.

Published
2016
Full Text
View/download PDF

10. Efficient single sideband microwave to optical conversion using an electro-optical whispering gallery mode resonator

Author

Rueda, Alfredo, Sedlmeir, Florian, Collodo, Michele C., Vogl, Ulrich, Stiller, Birgit, Schunk, Gerhard, Strekalov, Dmitry V., Marquardt, Christoph, Fink, Johannes M., Painter, Oskar, Leuchs, Gerd, and Schwefel, Harald G. L.

Subjects
Quantum Physics, Physics - Optics
Abstract

Linking classical microwave electrical circuits to the optical telecommunication band is at the core of modern communication. Future quantum information networks will require coherent microwave-to-optical conversion to link electronic quantum processors and memories via low-loss optical telecommunication networks. Efficient conversion can be achieved with electro-optical modulators operating at the single microwave photon level. In the standard electro-optic modulation scheme this is impossible because both, up- and downconverted, sidebands are necessarily present. Here we demonstrate true single sideband up- or downconversion in a triply resonant whispering gallery mode resonator by explicitly addressing modes with asymmetric free spectral range. Compared to previous experiments, we show a three orders of magnitude improvement of the electro-optical conversion efficiency reaching 0.1% photon number conversion for a 10GHz microwave tone at 0.42mW of optical pump power. The presented scheme is fully compatible with existing superconducting 3D circuit quantum electrodynamics technology and can be used for non-classical state conversion and communication. Our conversion bandwidth is larger than 1MHz and not fundamentally limited., Comment: 8 pages, 5 figures; comments welcome!

Published
2016
Full Text
View/download PDF

11. Frequency tuning of a triply-resonant whispering-gallery mode resonator to MHz wide transitions for proposed quantum repeater schemes

Author

Schunk, Gerhard, Vogl, Ulrich, Sedlmeir, Florian, Strekalov, Dmitry V., Otterpohl, Alexander, Averchenko, Valentin, Schwefel, Harald G. L., Leuchs, Gerd, and Marquardt, Christoph

Subjects
Quantum Physics
Abstract

Quantum repeaters rely on an interfacing of flying qubits with quantum memories. The most common implementations include a narrowband single photon matched in bandwidth and central frequency to an atomic system. Previously, we demonstrated the compatibility of our versatile source of heralded single photons, which is based on parametric down-conversion in a triply-resonant whispering-gallery mode resonator, with alkaline transitions [Schunk et al., Optica 2, 773 (2015)]. In this paper, we analyze our source in terms of phase matching, available wavelength-tuning mechanisms, and applications to narrow-band atomic systems. We resonantly address the D1 transitions of cesium and rubidium with this optical parametric oscillator pumped above its oscillation threshold. Below threshold, the efficient coupling of single photons to atomic transitions heralded by single telecom-band photons is demonstrated. Finally, we present an accurate analytical description of our observations. Providing the demonstrated flexibility in connecting various atomic transitions with telecom wavelengths, we show a promising approach to realize an essential building block for quantum repeaters., Comment: 18 pages, 14 figures

Published
2015
Full Text
View/download PDF

12. Interfacing transitions of different alkali atoms and telecom bands using one narrowband photon pair source

Author

Schunk, Gerhard, Vogl, Ulrich, Strekalov, Dmitry V., Förtsch, Michael, Sedlmeir, Florian, Schwefel, Harald G. L., Göbelt, Manuela, Christiansen, Silke, Leuchs, Gerd, and Marquardt, Christoph

Subjects
Quantum Physics, Physics - Optics
Abstract

Quantum information technology strongly relies on coupling of optical photons with narrowband quantum systems, such as quantum dots, color centers, and atomic systems. This coupling requires matching the optical wavelength and bandwidth to the desired system, which presents a considerable problem for most available sources of quantum light. Here we demonstrate coupling of alkali dipole transitions with a tunable source of photon pairs. Our source is based on spontaneous parametric down-conversion in a triply-resonant whispering-gallery mode resonator. For this, we have developed novel wavelength tuning mechanisms, which allow for a coarse tuning to either cesium or rubidium wavelength with subsequent continuous fine-tuning to the desired transition. As a demonstration of the functionality of the source, we performed a heralded single photon measurement of the atomic decay. We present a major advance in controlling the spontaneous down-conversion process, which makes our bright source of single photons now compatible with a plethora of narrow-band resonant systems., Comment: 8 pages, 5 figures

Published
2015
Full Text
View/download PDF

14. Near-infrared single-photon spectroscopy of a whispering gallery mode resonator using energy-resolving transition edge sensors

Author

Förtsch, Michael, Gerrits, Thomas, Stevens, Martin J., Strekalov, Dmitry, Schunk, Gerhard, Fürst, Josef U., Vogl, Ulrich, Sedlmeir, Florian, Schwefel, Harald G. L., Leuchs, Gerd, Nam, Sae Woo, and Marquardt, Christoph

Subjects
Quantum Physics, Physics - Optics
Abstract

We demonstrate a method to perform spectroscopy of near-infrared single photons without the need of dispersive elements. This method is based on a photon energy resolving transition edge sensor and is applied for the characterization of widely wavelength tunable narrow-band single photons emitted from a crystalline whispering gallery mode resonator. We measure the emission wavelength of the generated signal and idler photons with an uncertainty of up to 2 nm., Comment: 4 pages, 4 figures

Published
2014
Full Text
View/download PDF

15. High-Q MgF$_2$ whispering gallery mode resonators for refractometric sensing in aqueous environment

Author

Sedlmeir, Florian, Zeltner, Richard, Leuchs, Gerd, and Schwefel, Harald G. L.

Subjects
Physics - Optics
Abstract

We present our experiments on refractometric sensing with ultrahigh-Q, crystalline, birefringent magnesium fluoride (MgF$_2$) whispering gallery mode resonators. The difference to fused silica which is most commonly used for sensing experiments is the small refractive index of MgF$_2$ which is very close to that of water. Compared to fused silica this leads to more than 50% longer evanescent fields and a 4.25 times larger sensitivity. Moreover the birefringence amplifies the sensitivity difference between TM and TE type modes which will enhance sensing experiments based on difference frequency measurements. We estimate the performance of our resonators and compare them with fused silica theoretically and present experimental data showing the interferometrically measured evanescent decay and the sensitivity of mm-sized MgF$_2$ whispering gallery mode resonators immersed in water. They show reasonable agreement with the developed theory. Furthermore, we observe stable Q factors in water well above $1 \times 10^8$., Comment: 10 pages, 4 figures

Published
2014
Full Text
View/download PDF

16. Identifying modes of large whispering-gallery mode resonators from the spectrum and emission pattern

Author

Schunk, Gerhard, Fürst, Josef U., Förtsch, Michael, Strekalov, Dmitry V., Vogl, Ulrich, Sedlmeir, Florian, Schwefel, Harald G. L., Leuchs, Gerd, and Marquardt, Christoph

Subjects
Physics - Optics
Abstract

Identifying the mode numbers in whispering-gallery mode resonators (WGMRs) is important for tailoring them to experimental needs. Here we report on a novel experimental mode analysis technique based on the combination of frequency analysis and far-field imaging for high mode numbers of large WGMRs. The radial mode numbers q and the angular mode numbers p=$\ell$-m are identified and labeled via far-field imaging. The polar mode numbers $\ell$ are determined unambiguously by fitting the frequency differences between individual whispering gallery modes (WGMs). This allows for the accurate determination of the geometry and the refractive index at different temperatures of the WGMR. For future applications in classical and quantum optics, this mode analysis enables one to control the narrow-band phase-matching conditions in nonlinear processes such as second-harmonic generation or parametric down-conversion., Comment: 12 pages, 6 figures

Published
2014
Full Text
View/download PDF

17. Highly efficient generation of single-mode photon pairs using a crystalline whispering gallery mode resonator

Author

Förtsch, Michael, Schunk, Gerhard, Fürst, Josef U., Strekalov, Dmitry, Gerrits, Thomas, Stevens, Martin J., Sedlmeir, Florian, Schwefel, Harald G. L., Nam, Sae Woo, Leuchs, Gerd, and Marquardt, Christoph

Subjects
Quantum Physics, Physics - Optics
Abstract

We report a highly efficient source of narrow-band photon pairs based on parametric down-conversion in a crystalline whispering gallery mode resonator. Remarkably, each photon of a pair is strictly emitted into a single spatial and temporal mode, as witnessed by Glaubers autocorrelation function. We explore the phase-matching conditions in spherical geometries, and determine the requirements of the single-mode operation. Understanding these conditions has allowed us to experimentally demonstrate a single-mode pair-detection rate of $0.97 \cdot 10^6$ pairs/s per mW pump power per 20 MHz bandwidth without the need of additional filter cavities., Comment: 7 pages, 6 figures

Published
2014
Full Text
View/download PDF

18. Experimental characterization of an uniaxial angle cut whispering gallery mode resonator

Author

Sedlmeir, Florian, Hauer, Martin, Fürst, Josef U., Leuchs, Gerd, and Schwefel, Harald G. L.

Subjects
Physics - Optics
Abstract

The usual configuration of uniaxial whispering gallery mode resonators is a disk shaped geometry where the optic axis points along the symmetry axis, a so called z-cut resonator. Recently x-cut resonators, where the optic axis lies in the equatorial plane, became of interest as they enable extremely broadband second harmonic generation. In this paper we report on the properties of a more generalized system, the so called angle-cut resonator, where the optic axis exhibits an arbitrary angle against the symmetry axis. We show experimentally that the modal structure and quality factors are similar to common resonators but that the polarization properties differ quite significantly: due to the asymmetry the polarization depends on the equatorial position and is, in general, elliptical.

Published
2013
Full Text
View/download PDF

19. Directional Emission of Dielectric Disks with a Finite Scatterer in the THz Regime

Author

Preu, Sascha, Schmid, Sandra I., Sedlmeir, Florian, Evers, Jörg, and Schwefel, Harald G. L.

Subjects
Physics - Optics
Abstract

In the Terahertz (THz) domain, we investigate both numerically and experimentally the directional emission of whispering gallery mode resonators that are perturbed by a small scatterer in the vicinity of the resonators rim. We determine quality factor degradation, the modal structure and the emission direction for various geometries. We find that scatterers do allow for directional emission without destroying the resonator's quality factor. This finding allows for new geometries and outcoupling scenarios for active whispering gallery mode structures such as quantum cascade lasers and passive resonators such as evanescent sensors. The experimental results agree well with finite difference time domain simulations.

Published
2013
Full Text
View/download PDF

28. Squeezed vacuum states from a whispering gallery mode resonator

Author

Otterpohl, Alexander, primary, Sedlmeir, Florian, additional, Vogl, Ulrich, additional, Dirmeier, Thomas, additional, Shafiee, Golnoush, additional, Schunk, Gerhard, additional, Strekalov, Dmitry V., additional, Schwefel, Harald G. L., additional, Gehring, Tobias, additional, Andersen, Ulrik L., additional, Leuchs, Gerd, additional, and Marquardt, Christoph, additional

Published
2019
Full Text
View/download PDF

32. Sensitivity limits of millimeter-wave photonic radiometers based on efficient electro-optic upconverters

Author

Santamaría Botello, Gabriel, primary, Sedlmeir, Florian, additional, Rueda, Alfredo, additional, Abdalmalak, Kerlos Atia, additional, Brown, Elliott R., additional, Leuchs, Gerd, additional, Preu, Sascha, additional, Segovia-Vargas, Daniel, additional, Strekalov, Dmitry V., additional, García Muñoz, Luis Enrique, additional, and Schwefel, Harald G. L., additional

Published
2018
Full Text
View/download PDF

36. Quantum Limits of Coherent Beam Combining

Author

Leuchs, Gerd, primary, Müller, Christian R., additional, Sedlmeir, Florian, additional, Chatterjee, Sourav, additional, Haarlammert, Nicoletta, additional, Jauregui, Cesar, additional, Schreiber, Thomas, additional, Limpert, Jens, additional, Tünnermann, Andreas, additional, and Marquardt, Christoph, additional

Published
2018
Full Text
View/download PDF

37. Squeezed vacuum states from a whispering gallery mode resonator

Author

Otterpohl, Alexander, primary, Sedlmeir, Florian, additional, Shafiee, Golnoush, additional, Dirmeier, Thomas, additional, Vogl, Ulrich, additional, Schunk, Gerhard, additional, Strekalov, Dmitry V., additional, Schwefel, Harald G.L., additional, Gehring, Tobias, additional, Andersen, Ulrik L., additional, Leuchs, Gerd, additional, and Marquardt, Christoph, additional

Published
2018
Full Text
View/download PDF

39. Analytical study of free-space coupling of THz radiation for a new radioastronomy receiver concept

Author

Santamaría Botello, Gabriel, Abdalmalak, Kerlos Atia, Schlecht, Maria-Theresa, González-Ovejero, David, Sedlmeir, Florian, Schwefel, Harald G.L., Malzer, Stefan, Weber, Heiko, Segovia-Vargas, Daniel, Murphy, J.Anthony, Döhler, Gottfried H., García Muñoz, Luis-Enrique, Santamaría Botello, Gabriel, Abdalmalak, Kerlos Atia, Schlecht, Maria-Theresa, González-Ovejero, David, Sedlmeir, Florian, Schwefel, Harald G.L., Malzer, Stefan, Weber, Heiko, Segovia-Vargas, Daniel, Murphy, J.Anthony, Döhler, Gottfried H., and García Muñoz, Luis-Enrique

Abstract

In this paper, a scheme for coupling free-space THz radiation into a nonlinear whispering-gallery mode (WGM) resonator is presented. The purpose is to detect the weak THz radiation from the cosmic microwave background (CMB) by up-converting the signal into the optical domain via the nonlinearity of the medium. Such high-sensitivity receiver has theoretically shown capabilities towards photon counting at room temperature, however, it is critical to efficiently couple the THz radiation into the resonator. Therefore, by using the Schelkunoff-Waterman method (the so called T-matrix method) we perform an analytical evaluation of two different free-space coupling techniques: a frees-pace Gaussian beam, and a Gaussian beam incident in a silicon lens under total internal reflection. By comparing the excited modes in the resonator, the optimal parameters for each case are given.

Published
2017

40. Study of free-space coupling into mm-wave whispering-gallery mode resonators for a radioastronomy receiver

Author

Santamaría-Botello, Gabriel, Abdalmalak, Kerlos Atia, Schlecht, Maria-Theresa, González-Ovejero, David, Sedlmeir, Florian, Schwefel, Harald G. L., Malzer, Stefan, Weber, Heiko, Segovia-Vargas, Daniel, McCarthy, Darragh, Murphy, J.Anthony, Döhler, Gottfried H., García Muñoz, Luis Enrique, Santamaría-Botello, Gabriel, Abdalmalak, Kerlos Atia, Schlecht, Maria-Theresa, González-Ovejero, David, Sedlmeir, Florian, Schwefel, Harald G. L., Malzer, Stefan, Weber, Heiko, Segovia-Vargas, Daniel, McCarthy, Darragh, Murphy, J.Anthony, Döhler, Gottfried H., and García Muñoz, Luis Enrique

Abstract

In this paper, the coupling mechanism of a free-space Gaussian beam into a whispering-gallery mode resonator through a dielectric lens is mathematically modeled and numerically solved by means of the Schelkunoff-Waterman method (the so called T-matrix method). This approach allows in principle, to quickly analyze the performance of different near-field coupling mechanisms with arbitrary excitations. The aim is to efficiently excite a WGM into a nonlinear dielectric resonator in order to detect the weak mm-wave radiation from the cosmic microwave background (CMB) by up-converting the signal into the optical domain via the nonlinearity of the medium.

Published
2017

41. Analytical study of free-space coupling of THz radiation for a new radioastronomy receiver concept

Author

Botello, Gabriel Santamaría, Abdalmalak, Kerlos Atia, Schlecht, Maria-Theresa, González-Ovejero, David, Sedlmeir, Florian, Schwefel, Harald G. L., Malzer, Stefan, Weber, Heiko, Segovia-Vargas, Daniel, McCarthy, Darragh, Murphy, John Anthony, Döhler, Gottfried H., García Muñoz, Luis-Enrique, Botello, Gabriel Santamaría, Abdalmalak, Kerlos Atia, Schlecht, Maria-Theresa, González-Ovejero, David, Sedlmeir, Florian, Schwefel, Harald G. L., Malzer, Stefan, Weber, Heiko, Segovia-Vargas, Daniel, McCarthy, Darragh, Murphy, John Anthony, Döhler, Gottfried H., and García Muñoz, Luis-Enrique

Abstract

In this paper, a scheme for coupling free-space THz radiation into a nonlinear whispering-gallery mode (WGM) resonator is presented. The purpose is to detect the weak THz radiation from the cosmic microwave background (CMB) by up-converting the signal into the optical domain via the nonlinearity of the medium. Such high-sensitivity receiver has theoretically shown capabilities towards photon counting at room temperature, however, it is critical to efficiently couple the THz radiation into the resonator. Therefore, by using the Schelkunoff-Waterman method (the so called T-matrix method) we perform an analytical evaluation of two different free-space coupling techniques: a freespace Gaussian beam, and a Gaussian beam incident in a silicon lens under total internal reflection. By comparing the excited modes in the resonator, the optimal parameters for each case are given.

Published
2017

42. Kristalline Flüstergallerieresonatoren

Author

Sedlmeir, Florian

Subjects
ddc:539, Nichtlineare Optik, Department Physik, ddc:535, Optischer Resonator, Dielektrischer Resonator
Abstract

High quality (Q) optical resonators find applications in many fields of science and in- dustry. They serve as narrowband linear frequency filters, laser cavities and are used in high-performance sensing experiments. In a resonator, the field intensity can be enhanced by orders of magnitude compared to the field driving the resonator. This property makes them a valuable tool for studying and exploiting nonlinear effects and to enhance light-matter interaction in general. In this work, we explore an important subtype of dielectric resonators, the so called whispering gallery mode (WGM) resonator. Essentially, such a resonator is a convex shaped, usually rotationally symmetric dielectric material with small optical losses. The light is guided close to the boundary, but almost entirely within the dielectric by total internal reflection (TIR). The modes of WGM resonators can exhibit very high Q factors and confine light on a small footprint resulting in high field intensities within the ma- terial. Together with their monolithic design offering high stability, they are a natural choice for nonlinear optics experiments. Furthermore, the evanescent field component of the TIR interacts with the environment of the resonator causing the great success of WGM resonators in bio- and refractometric sensing experiments. Here, we focus on WGM resonators made from a single crystalline material. In addition to the already mentioned favorable properties, they can exhibit birefringence and second order nonlinearities enabling highly efficient phase-matched three wave mixing between vastly different frequencies. These resonators have to be fabricated mechanically by high precision single point di- amond turning and polishing to maintain the single crystal nature and to ensure an optically smooth surface. We optimized this fabrication technique and are now able to reach material limited Q factors in magnesium fluoride and lithium niobate resonators. The narrow bandwidth of the modes of a magnesium fluoride WGM resonator and its refractive index being very close to that of water motivated us to conduct refractometric sensing experiments in aqueous environment. Due to the small difference of the refrac- tive indices between the resonator and the environment, the evanescent field extends deep into the surrounding water. This increases the sensitivity compared to other mate- rials commonly used for sensing considerably. We were able to show that even mm-sized magnesium fluoride resonators can compete with two orders of magnitude smaller fused silica spheres. In addition, the thermal properties and the birefringence of magnesium fluoride allow for sophisticated temperature stabilization schemes. In that context, we investigated an exotic type of resonator where the optic axis of the crystal is tilted with respect to the symmetry axis of the resonator. Such a resonator exhibits still very high Q factors. Furthermore, we showed that the modes of such a res- onator are, in general, elliptically polarized and the polarization depends on the position on the resonator rim. This raised the question whether such a system could be used for sensing of chirality. Our results and estimations show, however, that the effect imposed by chirality would be most likely too small compared to other effects to be measurable efficiently. We demonstrate that birefringence can also be used to couple selectively to one of the two polarization families usually excited in a z-cut resonator, while the coupling to the re- spective other polarization remains entirely suppressed. Selective coupling will improve nonlinear conversion experiments such as single photon generation or third harmonic generation in WGM resonators since it allows to tune coupling rates to the pump and signal modes independently. In that context we expanded the existing theory for prism coupling and are now able to provide a modified condition for coupling of WGMs to a prism. The developed theory allowed us furthermore to calculate the far field pattern of outcoupled WGMs as a function of the resonator geometry. Finally, we demonstrate efficient nonlinear up-conversion of microwave signals into the optical domain using an all-resonant lithium niobate resonator. We discuss theoreti- cally that this requires a very precisely fabricated resonator geometry to achieve phase- matching for a given set of frequencies. We show how such a resonator can be iteratively fabricated and demonstrate the so far best reported conversion efficiency of continuous wave microwave signals around 80GHz into the telecom band. The up-converted signal preserves the phase information of the input microwave signal and can be efficiently detected by optical methods like heterodyning. We discuss the noise properties of such a receiver and find that it could outperform state-of-the-art THz detectors at room temperature by orders of magnitudes. Depending on the actual implementation of the optical detection, the smallest, thermally limited, detectable power could be as small as 10 −17 W at 300K. Optische Resonatoren mit hohen Gütefaktoren ($Q$ Faktoren) finden verschiedenste Anwendungen in der Technik und der Wissenschaft. Beispielsweise können sie als schmalbandige Filter, Laserresonatoren oder als hochsensible Sensoren genutzt werden. Ein Resonator verstärkt das in ihn eingekoppelte Licht um viele Größenordnungen und ist demzufolge ideal für nichtlineare Experimente geeignet.\\ Die vorliegende Arbeit befasst sich mit einem speziellen Typ dielektrischer Resonatoren, dem sogenannten Flüstergallerieresonator. Dieser ist aus einem konvexen und üblicherweise rotationssymmetrischen Stück transparenten Materials gefertigt, in dem das Licht entlang der Grenzfläche mit Hilfe totaler interner Reflektion geleitet wird. Durch diesen wellenleiterartigen Effekt wird die Feldverteilung des Lichtes räumlich stark begrenzt und es können, zusammen mit dem hohen $Q$ Faktor, sehr hohe Feldstärken im Dielektrikum erreicht werden. Ein kleiner Teil des Feldes ist außerhalb des Resonators in Form einer evaneszenten Welle zu finden, welche mit der Umgebung wechselwirken kann. Ein zusätzlicher Vorteil ist, dass der Resonator aus einem Stück gefertigt ist und somit sehr hohe mechanische Stabilität aufweist. Diese Eigenschaften zusammengenommen machen Flüstergallerieresonatoren zu vielseitigen und mächtigen Plattformen für nichtlineare Optik und Sensing Anwendungen.\\ Insbesondere werden im Folgenden Flüstergallerieresonatoren untersucht, welche aus Einkristallen gefertigt sind. Zusätzlich zu den bereits genannten vorteilhaften Eigenschaften können diese optisch doppelbrechend sein und Nichtlinearitäten zweiter Ordnung aufweisen, was phasenangepasste, hocheffiziente Dreiwellenmischung bei geringen Eingangsleistungen erlaubt. Solche Resonatoren müssen mechanisch auf einer hochpräzisen Diamantdrehmaschine geformt und anschließend poliert werden um eine optische Güte der Oberfläche zu gewährleisten. Im Laufe dieser Arbeit haben wir diesen Prozess optimiert und sind nun in der Lage materiallimitierte Gütefaktoren in Magnesiumfluorid und Lithiumniobat zu erreichen.\\ Mit Magnesiumfluoridresonatoren wurden refraktometrische Sensing Experimente durchgeführt. Aufgrund des geringen Brechungsindexunterschieds zwischen Wasser und Magnesiumfluorid ist der Anteil des evaneszenten Feldes an den Moden deutlich größer als in den sonst üblichen Resonatormaterialien wie beispielsweise Quarzglas. Daher konnten wir zeigen, dass selbst millimetergroße Magensiumfluoridresonatoren die gleiche Sensitivität aufweisen wie zwei Größenordnungen kleinere Quarzglasresonatoren. Des Weiteren bieten Magnesiumfluoridresonatoren aufgrund ihrer thermischen Eigenschaften und ihrer Doppelbrechung die Möglichkeit effektiver Temperaturstabilisierung.\\ In diesem Zusammenhang untersuchten wir einen Magnesiumfluoridresonator bei dem die optische Achse nicht parallel zur Rotationsachse des Resonators ausgerichtet ist. Dieser Resonator wies immer noch Moden hoher Güte auf, die allerdings, im Allgemeinen, elliptisch polarisiert sind und deren Polarisation von der Position im Resonator abhängt. Obwohl es naheliegend scheint, zeigen unsere Ergebnisse jedoch, dass ein solches asymmetrisches System vermutlich nicht zur Detektion von Chiralität geeignet ist.\\ Ein weiteres hier vorgestelltes Experiment welches sich mit doppelbrechenden Resonatoren beschäftigt ist selektive Kopplung an einen Flüstergallerieresonator. Hierbei nutzen wir den unterschiedlich großen Brechungsindex verschiedener Polarisationen in dem Resonator selbst und im Kopplungsprisma, um eine Modenfamilie effizient auszukoppeln, während die jeweils andere Familie ungekoppelt bleibt. Wir zeigen, dass eine solche Konfiguration nutzbringend in nichtlinearen Experimenten, wie beispielsweise der Erzeugung von korrelierten Photonenpaaren oder der dritten Harmonischen, eingesetzt werden kann. Im Rahmen dieses Projekts wurde die bestehende Kopplungstheorie erweitert und auf nichtsphärische Geometrien angewandt was uns erlaubt die Fernfelder von ausgekoppelten Moden zu berechnen und eine modifizierte Kopplungsbedingung anzugeben.\\ Der letzte Teil dieser Arbeit beschreibt ein Experiment in dem ein schwaches Mikrowellensignal durch einen nichtlinearen Prozess in ein optisches Signal im Telekommunikationsband konvertiert wird. Hierfür nutzten wir einen Lithiumniobatresonator der für alle beteiligten Frequenzen, das Mikrowellensignal, die optische Pumpe und das hochkonvertierte optische Signal resonant ist. Dies erforderte eine hochpräzise, iterative Fertigung des Resonators um Phasenanpassung zu ermöglichen. Die resultierende Konversionseffizienz ist mit Abstand die beste die für diesen Frequenzbereich bislang erzielt werden konnte. Da der Prozess kohärent ist, enthält das optische Signal die Phaseninformationen des Eingangssignals und kann mit optischen Methoden wie beispielsweise einer Heterodynmessung effizient detektiert werden. Die Rauscheigenschaften des Konverters zeigen, dass diese indirekte Methode um Größenordnung besser sein kann als die direkte Messung von Mikrowellen oder THz Signalen. Abhängig von der verwendeten optischen Messmethode hat ein solcher Detektor das Potential bis zu einem thermischen Limit von \SI{e-17}{W} Eingangsleistung zu messen.

Published
2016

43. Study of free-space coupling into mm-wave whispering-gallery mode resonators for a radioastronomy receiver

Author

Santamaria-Botello, Gabriel, primary, Abdalmalak, Kerlos Atia, additional, Schlecht, Maria-Theresa, additional, Gonzalez-Ovejero, David, additional, Sedlmeir, Florian, additional, Schwefel, Harald G. L., additional, Malzer, Stefan, additional, Weber, Heiko, additional, Segovia-Vargas, Daniel, additional, McCarthy, Darragh, additional, Murphy, John Anthony, additional, Dohler, Gottfried H., additional, and Garcia Munoz, Luis Enrique, additional

Published
2017
Full Text
View/download PDF

44. Analytical study of free-space coupling of THz radiation for a new radioastronomy receiver concept

Author

Botello, Gabriel Santamaria, primary, Abdalmalak, Kerlos Atia, additional, Schlecht, Maria-Theresa, additional, Gonzalez-Ovejero, David, additional, Sedlmeir, Florian, additional, Schwefel, Harald G. L., additional, Malzer, Stefan, additional, Weber, Heiko, additional, Segovia-Vargas, Daniel, additional, McCarthy, Darragh, additional, Murphy, John Anthony, additional, Dohler, Gottfried H., additional, and Munoz, Luis-Enrique Garcia, additional

Published
2017
Full Text
View/download PDF

45. Polarization-Selective Out-Coupling of Whispering-Gallery Modes

Author

Sedlmeir, Florian, primary, Foreman, Matthew R., additional, Vogl, Ulrich, additional, Zeltner, Richard, additional, Schunk, Gerhard, additional, Strekalov, Dmitry V., additional, Marquardt, Christoph, additional, Leuchs, Gerd, additional, and Schwefel, Harald G. L., additional

Published
2017
Full Text
View/download PDF

46. Single sideband microwave to optical photon conversion – an electro-optic realization

Author

Rueda, Alfredo, primary, Sedlmeir, Florian, additional, Collodo, Michele C., additional, Vogl, Ulrich, additional, Stiller, Birgit, additional, Schunk, Gerhard, additional, Strekalov, Dmitry V., additional, Marquardt, Christoph, additional, Fink, Johannes M., additional, Painter, Oskar, additional, Leuchs, Gerd, additional, and Schwefel, Harald G. L., additional

Published
2017
Full Text
View/download PDF

48. Efficient single sideband microwave to optical conversion using a LiNbO_3 WGM-resonator

Author

Rueda, Alfredo, Sedlmeir, Florian, Collodo, Michele C., Vogl, Ulrich, Stiller, Birgit, Schunk, Gerhard, Strekalov, Dmitry V., Marquardt, Christoph, Fink, Johannes M., Painter, Oskar, Leuchs, Gerd, Schwefel, Harald G. L., Rueda, Alfredo, Sedlmeir, Florian, Collodo, Michele C., Vogl, Ulrich, Stiller, Birgit, Schunk, Gerhard, Strekalov, Dmitry V., Marquardt, Christoph, Fink, Johannes M., Painter, Oskar, Leuchs, Gerd, and Schwefel, Harald G. L.

Abstract

We present a coherent microwave to telecom signal converter based on the electro-optical effect using a crystalline WGM-resonator coupled to a 3D microwave cavity, achieving high photon conversion efficiency of 0.1% with MHz bandwidth.

Published
2016

50. Efficient microwave to optical photon conversion: an electro-optical realization

Author

Rueda, Alfredo, primary, Sedlmeir, Florian, additional, Collodo, Michele C., additional, Vogl, Ulrich, additional, Stiller, Birgit, additional, Schunk, Gerhard, additional, Strekalov, Dmitry V., additional, Marquardt, Christoph, additional, Fink, Johannes M., additional, Painter, Oskar, additional, Leuchs, Gerd, additional, and Schwefel, Harald G. L., additional

Published
2016
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results