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--- groups:mg:private:steffensauer:start [2019/11/26 14:14] – ssauer
+++ groups:mg:private:steffensauer:start [2020/12/17 14:49] (current) – [Lasertreiber] ssauer
@@ Line 5: / Line 5: @@
   * Leiterplatten: https://www.multi-circuit-boards.eu/index.html
     * Login-Nummer: 162258
+  * 10 MHz Mail: 10mhz@iqo.uni-hannover.de
+    * passwort: pAd98Y24
+  * Grafana: http://thingol:3000/d/63RLCU1Mz/influx?from=1608117070423&orgId=1&to=1608203470423
+    * Benutzername: admin
+    * Passwort: ramsey
+  * [[.:Metamirror|Metamirror]]
 ===== Paper Sammlung =====
-====== Cavity Paper ======
-===== General =====
+==== General ====
   * {{ :groups:mg:nphoton.2010.313.pdf |Making optical atomic clocks more stable with 10−16-level laser stabilization}}, V. Jiang et al.,Nature Photonics **5**, 158–161 (2011)
   * {{ :groups:mg:coating_book_chap_15_precision_fp_cavity.pdf |High-precision laser stabilization via optical cavities}}, M. Martin and J. Ye
   * {{ :groups:mg:private:steffensauer:guidelines_for_developing_optical_clocks_with10_18fractional_frequency_uncertainty.pdf |}}
-===== Overview Cavities =====
-===== Relevant effects influencing frequency stability =====
+==== Relevant effects influencing frequency stability ====
-  * **Fundamental limit: Thermal noise limit**
+=== Noise calculation ===
           * {{ :groups:mg:physrevlett.93.250602.pdf |Thermal-Noise Limit in the Frequency Stabilization of Lasers with Rigid Cavities}}, K. Numata et al., PRL **93**, 250602 (2004)
           * {{ :groups:mg:josab-29-1-178.pdf |Thermal noise in optical cavities revisited}}, T. Kessler et al., J. Opt. Soc. Am. B Vol. **29**, No. 1 (2012)
@@ Line 22: / Line 27: @@
           * **Higher-order mode locking:**
             * {{ :groups:mg:project_ptb-cavity:1801.05026.pdf |Thermal noise limited higher-order mode locking of a reference cavity}}, X. Y. Zeng et al., arXiv:1801.05026v1 (2018)
+=== Pound-Drever-Hall (PDH) ===
-  * **Laser Lock: Pound-Drever-Hall (PDH):**
           * {{ :groups:mg:laser_phase_and_frequency_stabilization_using_an_optical_resonator.pdf |Laser Phase and Frequency Stabilization Using an Optical Resonator}}, R. W. P. Drever et al., Appl. Phys. B **31**, 97-105 (1983)
           * EOM-Temperature
-  * **Vibration:**
+=== Vibration ===
           * {{ :groups:mg:art_3a10.1007_2fs00340-013-5676-y.pdf |Simple vibration-insensitive cavity for laser stabilization at the 10^-16 level}}, J. Keller et al., Appl. Phys. **B 116**, 203–210 (2014)
           * https://journals.aps.org/pra/abstract/10.1103/PhysRevA.79.053829
-  * **Residual amplitude modulation:**
+=== Residual amplitude modulation ===
           * {{ :groups:mg:ol-39-7-1980.pdf |Reduction of residual amplitude modulation to 1 × 10-6 for frequency modulation and laser stabilization}}, W. Zhang et al., Optics Letters Vol. **39**, No. 7 (2014)
           * {{ :groups:mg:05095849.pdf |Investigation and cancellation of residual amplitude modulation in fiber electro-optic modulator based frequency modulation gas sensing technique}}, Z. Li et al., Sensors and Actuators B **196**, 23–30 (2014)
           * {{ :groups:mg:josaa-31-1-81.pdf |Residual amplitude modulation in interferometric gravitational wave detector}}, K. Kokeyama et al., J. Opt. Soc. Am. A Vol. **31**, No. 1 (2014)
               * {{ :groups:mg:1309.4522.pdf |Residual Amplitude Modulation in Interferometric Gravitational Wave Detectors}}, K. Kokeyama et al.,  aXiv:1309.4522v1 [gr-qc] 18 Sep 2013
-  * **Temperature/CTE:**
+=== Temperature/CTE ===
     * **ULE compensations rings:**
           * {{ :groups:mg:leg10.pdf |Tuning the thermal expansion properties of optical reference cavities with fused silica mirrors}}, T. Legero et al., J. Opt. Soc. Am. B Vol. **27**, No. 5 (2010)
-  * Mercury (Paris) cavity:
-      *  {{ :groups:mg:physreva.79.053829.pdf |Ultrastable lasers based on vibration insensitive cavities}}, J. Millo et al., PR A **79**, 053829 (2009)
-      * {{ :groups:mg:ol-37-17-3477.pdf |Laser locking to the Hg199 𝑆01−𝑃03 clock transition with 5.4×10−15/√𝜏 fractional frequency instability }}, J. J. McFerran et al., Optics Letters Vol. **37**, No. 17, 3477-3479 (2012)
-==== Coating ====
-  * **Crystaline coatings:**
-          * {{ :groups:mg:nphoton.2013.174.pdf |Tenfold reduction of Brownian noise in high-reflectivity optical coatings}}, Garrett D. Cole et al., Nature Photonics **7**, 644–650 (2013)
-          * {{ :groups:mg:project_ptb-cavity:oe-26-5-6114.pdf |Optical performance of large-area crystalline
-coatings}}, M. Marchito et al., Opt. Exp. 6114, Vol. 26, No. 5 (2018)
 ==== Spacer geometries / Cavity types ====
   * **Vertical geometry:**
@@ Line 71: / Line 68: @@
           * {{ :groups:mg:nphoton.2012.217.pdf |A sub-40-mHz-linewidth laser based on a silicon single-crystal optical cavity}}, T. Kessler et al., Nature Photonics Vol. **6**, 687-692 (2012)
           * https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.118.263202
+  *  **Mercury (Paris) cavity:**
+      *  {{ :groups:mg:physreva.79.053829.pdf |Ultrastable lasers based on vibration insensitive cavities}}, J. Millo et al., PR A **79**, 053829 (2009)
+      * {{ :groups:mg:ol-37-17-3477.pdf |Laser locking to the Hg199 𝑆01−𝑃03 clock transition with 5.4×10−15/√𝜏 fractional frequency instability }}, J. J. McFerran et al., Optics Letters Vol. **37**, No. 17, 3477-3479 (2012)
+  *  **Core (Achim Peters):**
+      * {{ :groups:mg:private:steffensauer:iqec-2011-i991-2.pdf |}}
-==== Measurement/characterization techniques ====
+==== Measurement/characterization techniques of ultra-stable lasers ====
           * {{ :groups:mg:project_ptb-cavity:1.4971852.pdf |Characterization of electrical noise limits in ultra-stable laser systems}}, J. Zhang et al., Review of Scientific Instruments 87, 123105 (2016)
           * {{ :groups:mg:project_ptb-cavity:ol-42-7-1217.pdf |Phase noise characterization of sub-hertz linewidth
@@ Line 83: / Line 86: @@
         * {{ :groups:mg:project_ptb-cavity:single_ion_transportable_optical_atomic_clocks.pdf |Single-ion, transportable optical atomic clocks}}, Marion Delehaye & Clément Lacroûte, Journal of Modern Optics, 65:5-6, 622-639 (2018)
   * **Lorentz invariance for the electron:**
-        * Achim Peters: CORE
+       * Achim Peters: CORE
+  * **time:**
+    * {{ :groups:mg:private:steffensauer:riehle.pdf |}}
 ==== Noise ====
   * [[https://arxiv.org/pdf/1809.10720.pdf#page11|power spectral density of Brownian noise]]
+  * Noise to frequency stability: {{ :groups:mg:private:steffensauer:dawkins.pdf |}}
 === Material-Konstanten ===
   * [[https://arxiv.org/pdf/gr-qc/0504134.pdf|Mechanical Loss I]]
   * [[https://arxiv.org/pdf/1003.2893.pdf|Mechanical Loss II]]
+==== Coating ====
+  * **Crystaline coatings:**
+          * {{ :groups:mg:nphoton.2013.174.pdf |Tenfold reduction of Brownian noise in high-reflectivity optical coatings}}, Garrett D. Cole et al., Nature Photonics **7**, 644–650 (2013)
+            * {{ :groups:mg:private:steffensauer:col13_sup.pdf |Anhang von Cole 2013}}
+          * {{ :groups:mg:project_ptb-cavity:oe-26-5-6114.pdf |Optical performance of large-area crystalline
+coatings}}, M. Marchito et al., Opt. Exp. 6114, Vol. 26, No. 5 (2018)
 ==== Doppelbrechung in crystallinen Spiegelschichten ====
@@ Line 111: / Line 125: @@
   * https://arxiv.org/pdf/1902.07012.pdf Transfer-stability von Mehlstäubler zu Siliizum (über zwei Gebäude mit Ethernet-Kabel)
-==== Kamm-Kamm-Vergleich/Freuenzkamm-Limitierung ====
+==== Kamm-Kamm-Vergleich/Frequenzkamm-Limitierung ====
   * https://arxiv.org/pdf/1910.04261.pdf
 ==== Finesse Messung ====
   * Ringdown von Cole: {{ :groups:mg:private:steffensauer:supermirror-high-performance-near-and-mid-infrared-crystalline-coatings.pdf |}}
+==== Frequenzverdopplung ====
+  * S. Herbers: {{ :groups:mg:private:steffensauer:oe-27-16-23262.pdf |}}
 ==== Darkmatter ====

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