Thematische Bibliographien / Lamb-dip / Zeitschriftenartikel

Zeitschriftenartikel zum Thema „Lamb-dip“

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Autor: Grafiati
Veröffentlicht am 7. Juli 2024
Zuletzt aktualisiert am 7. Juli 2024

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1

Alekseev, R. A., I. V. Lapkin, A. V. Lapinov, T. A. Khabarova, G. Yu Golubyatnikov, A. F. Andriyanov, A. P. Schkaev und P. M. Zemlyanukha. „Quasi-Optical Sub-Doppler Lamb-Dip Spectrometer“. Izvestiya vysshikh uchebnykh zavedenii. Radiofizika 64, Nr. 12 (2021): 971–82. http://dx.doi.org/10.52452/00213462_2021_64_12_971.

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2

Aissani, A., S. Leghmizi und K. Battou. „Models of Geometrically “Stabilized” Laser Cavity“. MATEC Web of Conferences 253 (2019): 02002. http://dx.doi.org/10.1051/matecconf/201925302002.

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The Lamb-dip characterizing the line shape emitted by a gas laser is often used in spectroscopy of materials as a reference for frequency measurements. For such lasers, the frequency control is performed on the Lamb-dip. It is therefore essential, for accurate measurements, that its frequency matches with the laser resonance frequency. This is only possible if the emitted line shape is symmetrical, which is not usually the case. Indeed, the lens effects induced in the laser amplifying medium, which are due to the population and the saturation inhomogeneities, generally produce an asymmetrical emitted line shape. So, the frequency of the Lamb-dip is shifted compared to the central frequency. In this work, we will first revisit the model given in the literature, in order to highlight the limit of its validity, and then we will propose through an appropriate choice of the cavity geometry, a "stabilized" cavity model giving rise to a symmetrical line shape even when the control parameters vary.
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3

Di Sarno, V., R. Aiello, M. De Rosa, I. Ricciardi, S. Mosca, G. Notariale, P. De Natale, L. Santamaria und P. Maddaloni. „Lamb-dip spectroscopy of buffer-gas-cooled molecules“. Optica 6, Nr. 4 (04.04.2019): 436. http://dx.doi.org/10.1364/optica.6.000436.

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4

Schneider, M., A. Hinz, A. Groh, K. M. Evenson und W. Urban. „CO laser stabilization using the optogalvanic Lamb-dip“. Applied Physics B Photophysics and Laser Chemistry 44, Nr. 4 (Dezember 1987): 241–45. http://dx.doi.org/10.1007/bf00692127.

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5

RAMIREZ, A. J., G. R. ACUFF, L. M. LUCIA und J. W. SAVELL. „Lactic Acid and Trisodium Phosphate Treatment of Lamb Breast To Reduce Bacterial Contamination“. Journal of Food Protection 64, Nr. 9 (01.09.2001): 1439–41. http://dx.doi.org/10.4315/0362-028x-64.9.1439.

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Lactic acid and trisodium phosphate (TSP) were evaluated for the ability to reduce Escherichia coli and aerobic plate counts (APCs) on lamb breasts that were inoculated with a lamb fecal paste. A 90-s water rinse was applied followed by either a 9-s (55°C) 2% lactic acid spray, a 60-s (55°C) 12% TSP dip, or a combined treatment of both lactic acid and TSP treatments. Lactic acid reduced E. coli and APCs by 1.6 log10/cm2, and TSP caused a 1.8-log10/cm2 reduction in E. coli and a 0.7-log10/cm2 reduction in APCs. Combined reductions by the lactic acid spray followed by the TSP dip were 1.8 and 1.5 log10/cm2 for E. coli and APCs, respectively. Lactic acid and trisodium phosphate, used alone or in combination, were effective in reducing numbers of E. coli and could be useful as pathogen intervention steps in lamb slaughter processing.
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6

Tan, Y., T. P. Hua, J. D. Tang, J. Wang, A. W. Liu, Y. R. Sun, C. F. Cheng und S. M. Hu. „Self- and N2- broadening of CO in the low-pressure regime“. Journal of Physics: Conference Series 2439, Nr. 1 (01.01.2023): 012007. http://dx.doi.org/10.1088/1742-6596/2439/1/012007.

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Abstract Sub-Doppler saturated absorption spectroscopy of rovibrational transitions of carbon monoxide broadened by nitrogen was recorded at low pressures (1-24 Pa) near 1.56 µm with comb-locked cavity ring-down saturation spectroscopy. We found a nonlinear pressure dependence of the Lamb-dip width of the CO transition induced by elastic scattering. Analysis of the results allows us to characterize parameters of elastic- and nonelastic- scattering under collisions. The elastic scattering angle for nitrogen-induced collisions (CO-N2) was determined to be larger than 0.6 × 10−3 rad. The line broadening of the Lamb dip in the region of low pressures exceeds the broadening at high pressures by a factor of 4 and 5 for the self- and N2-broadening CO R(9) transition. Moreover, much smaller line shifts for both self- and N2-broaden Lamb dips were observed, which was also attributed to the decrease in the number of scattered molecules in the interaction and the increasing attracting forces.
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7

Alekseev, E., V. Ilyushin, V. Budnikov, M. Pogrebnyak und L. Kniazkov. „MODERNIZATION OF THE KHARKIV MICROWAVE SPECTROMETER: CURRENT STATE“. RADIO PHYSICS AND RADIO ASTRONOMY 28, Nr. 3 (2023): 257–70. http://dx.doi.org/10.15407/rpra28.03.257.

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Subject and Purpose. Results are presented of the recent considerable upgrade implemented at the Kharkiv microwave spectrometer. The upgrade has been aimed at extending the operating frequency range and increasing the utmost accessible spectral resolution of the spectrometer. Methods and Methodology. In order to extend the frequency range we have designed and constructed new BWO-based oscillator units, also providing for possibility of frequency tripler application. Construction of a new absorbing cell of enlarged diameter allowed us to considerably improve the spectral resolution for Lamb-dip measurements. Results. Owing to the upgrade, the spectrometer has become able to cover the frequency range from 34 to 420 GHz, with a gap from 183 to 200 GHz. The spectral resolution in the Lamb-dip observation mode has been increased by a factor of two. In addition, the functionality of the spectrometer has been significantly improved via modernization of several of its subsystems. Conclusions. The new upgrades of the spectrometer systems have permitted extending the operational frequency range and increasing the utmost accessible resolution by means of reducing the time-of-flight line broadening in the Lamb-dip measurements. In addition, application of square-wave frequency modulation with accurately known modulation parameters, in combination with careful modeling of the distortions caused by reflections in the absorbing cell, has allowed us to significantly improve the accuracy of line frequency measurements.
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8

Taché, J. P., A. Le Floch und R. Le Naour. „Lamb dip asymmetry in lasers with plane-parallel resonators“. Applied Optics 25, Nr. 17 (01.09.1986): 2934. http://dx.doi.org/10.1364/ao.25.002934.

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9

Oger, M., A. Daude und A. Le Floch. „Frequency stability measurement on magnetic Lamb dip-stabilised lasers“. Journal of Physics E: Scientific Instruments 22, Nr. 8 (August 1989): 618–23. http://dx.doi.org/10.1088/0022-3735/22/8/017.

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10

Golubiatnikov, G. Yu, S. P. Belov, I. I. Leonov, A. F. Andriyanov, I. I. Zinchenko, A. V. Lapinov, V. N. Markov, A. P. Shkaev und A. Guarnieri. „Precision Sub-Doppler Millimeter and Submillimeter Lamb-Dip Spectrometer“. Radiophysics and Quantum Electronics 56, Nr. 8-9 (Januar 2014): 599–609. http://dx.doi.org/10.1007/s11141-014-9464-2.

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11

Shy, Jow-Tsong, und Tsu-Chiang Yen. „Optogalvanic Lamb-dip frequency stabilization of a CO2 laser“. Optics Communications 60, Nr. 5 (Dezember 1986): 306–8. http://dx.doi.org/10.1016/0030-4018(86)90157-4.

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12

Kochanov, Victor P., Sergey P. Belov und German Yu Golubiatnikov. „Lamb dip spectroscopy with the use of frequency-modulated radiation“. Journal of Quantitative Spectroscopy and Radiative Transfer 149 (Dezember 2014): 146–57. http://dx.doi.org/10.1016/j.jqsrt.2014.08.005.

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13

Sasada, H., und O. Kubota. „Frequency of lamb-dip-stabilized 1.52 ?m He-Ne lasers“. Applied Physics B Photophysics and Laser Chemistry 55, Nr. 2 (August 1992): 186–88. http://dx.doi.org/10.1007/bf00324074.

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14

Babin, S. A., Valerii I. Donin, A. V. Rodishevskiĭ und D. A. Shapiro. „Coulomb broadening of a Lamb dip of an Ar2+laser“. Soviet Journal of Quantum Electronics 18, Nr. 6 (30.06.1988): 796–801. http://dx.doi.org/10.1070/qe1988v018n06abeh012295.

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15

Aiello, Roberto, Maria Giulia Delli Santi, Valentina Di Sarno, Maurizio De Rosa, Iolanda Ricciardi, Paolo De Natale, Luigi Santamaria, Giovanni Giusfredi und Pasquale Maddaloni. „Lamb-dip ro-vibrational spectroscopy of buffer-gas-cooled acetylene“. Journal of Physics: Conference Series 2439, Nr. 1 (01.01.2023): 012002. http://dx.doi.org/10.1088/1742-6596/2439/1/012002.

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Abstract We present an original opto-mechanical scheme which, effectively coupling a Lamb-dip saturated-absorption cavity ring-down spectrometer to a buffer-gas-cooling (BGC) source, allows us to determine the absolute frequency of the acetylene (ν 1 + ν 3) R(1)e transition at 6561.0941 cm−1 with an overall (statistical + systematic) uncertainty as low as 1.2 kHz. By improving the previous record with buffer-gas-cooled molecules by one order of magnitude, our achievement opens the door to new kind of ultra-precise low-temperature spectroscopic studies.
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16

Lien, Y. H., D. K. Liu und J. T. Shy. „Frequency stabilization of CO laser using RF optogalvanic Lamb-dip“. Applied Physics B 96, Nr. 1 (30.12.2008): 111–17. http://dx.doi.org/10.1007/s00340-008-3349-z.

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17

Mandal, Swapan, und Pradip N. Ghosh. „Line shape and frequency shift of Lamb dip and crossover-resonance dip in closely spaced transitions“. Physical Review A 45, Nr. 7 (01.04.1992): 4990–97. http://dx.doi.org/10.1103/physreva.45.4990.

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18

Fasci, E., S. Gravina, G. Porzio, A. Castrillo und L. Gianfrani. „Lamb-dip cavity ring-down spectroscopy of acetylene at 1.4 μm“. New Journal of Physics 23, Nr. 12 (01.12.2021): 123023. http://dx.doi.org/10.1088/1367-2630/ac3b6e.

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Abstract Doppler-free saturated-absorption Lamb dips are observed for weak vibration-rotation transitions of C2H2 between 7167 and 7217 cm−1, using a frequency-comb assisted cavity ring-down spectrometer based on the use of a pair of phase-locked diode lasers. We measured the absolute center frequency of sixteen lines belonging to the 2 ν 3 + ν 5 1 band, targeting ortho and para states of the molecule. Line pairs of the P and Q branches were selected so as to form a ‘V’-scheme, sharing the lower energy level. Such a choice made it possible to determine the rotational energy separations of the excited vibrational state for J-values from 11 to 20. Line-center frequencies are determined with an overall uncertainty between 3 and 13 kHz. This is over three orders of magnitude more accurate than previous experimental studies in the spectral region around the wavelength of 1.4 μm. The retrieved energy separations provide a stringent test of the so-called MARVEL method recently applied to acetylene.
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19

Barnes, P. N., und G. W. Hart. „Precision spectroscopy using the Lamb dip in a pure ion plasma“. Review of Scientific Instruments 64, Nr. 2 (Februar 1993): 579–80. http://dx.doi.org/10.1063/1.1144180.

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20

Shy, Jow-Tsong, und Tsu-Chiang Yen. „Optogalvanic Lamb-dip frequency stabilization of a sequence-band CO_2 laser“. Optics Letters 12, Nr. 5 (01.05.1987): 325. http://dx.doi.org/10.1364/ol.12.000325.

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21

Ricci, L., F. S. Pavone, M. Prevedelli, L. R. Zink, M. Inguscio, F. Scappini und M. P. Sassi. „Lamb dip and infrared–radio frequency double resonance spectroscopy of 188OsO4“. Journal of Chemical Physics 94, Nr. 4 (15.02.1991): 2509–12. http://dx.doi.org/10.1063/1.459875.

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22

Dore, Luca, Lino Cludi, Andrea Mazzavillani, Gabriele Cazzoli und Cristina Puzzarini. „Lamb-dip millimeter-wave spectrum, structure and dipole moment of HCCCCF“. Physical Chemistry Chemical Physics 1, Nr. 9 (1999): 2275–78. http://dx.doi.org/10.1039/a900920e.

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23

Tsai, Chin-Chun, Tyson Lin, Cherng-Yn Shieh, Tsu-Chiang Yen und Jow-Tsong Shy. „CO_2 laser frequency stabilization using the radio-frequency optogalvanic Lamb dip“. Applied Optics 30, Nr. 27 (20.09.1991): 3842. http://dx.doi.org/10.1364/ao.30.003842.

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24

Fushimi, Kimika, Shusuke Nishiyama, Satoshi Tomioka und Koichi Sasaki. „Saturated cavity ringdown spectroscopy at Balmer-α line of atomic hydrogen for estimating sheath electric field in plasma“. Journal of Instrumentation 18, Nr. 10 (01.10.2023): C10002. http://dx.doi.org/10.1088/1748-0221/18/10/c10002.

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Abstract We applied saturated cavity ringdown spectroscopy (CRDS) to the measurement of the Doppler-free absorption spectrum of the Balmer-α line of atomic hydrogen in an inductively coupled hydrogen plasma. The spectrum was used for estimating the electric field in the sheath region in the vicinity to a biased electrode. The absorption frequency (the absorption coefficient multiplied by the speed of light) and the saturation parameter were estimated by fitting the experimental ringdown curve with the theory reported by Giusfredi and coworkers (Phys. Rev. Lett. 104 (2010) 110801). We detected the Lamb dip corresponding to the 2p 2 P o 3/2 - 3d 2 D 5/2 transition in the absorption spectrum in the field-free condition. We observed the change in the Lamb dip spectrum when we repeated the measurement in the sheath, and we succeeded in estimating the sheath electric field of 220–230 V/cm at a distance of 1.8 mm from the electrode which was biased at -100 V with respect to the ground potential. The experimental results indicate the potential of saturated CRDS for the measurement of sheath electric fields in plasmas.
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25

KARTAL, Recep, und Nebi BİLİR. „EVALUATION OF EHRAMI BLACK PINE PLANTATIONS IN ISPARTA DISTRICT: 30th YEAR RESULTS“. Bartın University International Journal of Natural and Applied Sciences 5, Nr. 1 (31.07.2022): 10–17. http://dx.doi.org/10.55930/jonas.1052835.

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Isparta yöresindeki, 30 yaşlı Ehrami Karaçam (Pinus nigra Arnold. ssp. pallasiana var. pyramidata) ağaçlandırma sahasından, 500 m2 büyüklüğündeki dört örnek alanda boy, dip çap, göğüs yüksekliği çapı, tepe çapı ile birey sayısı araştırılmıştır. Bununla birlikte sahadaki Anadolu Karaçamı [Pinus nigra Arnold. subsp. pallasiana (Lamb.) Holmboe] ve Toros Sediri (Cedrus libani A. Rich.) ile bu özellikler bakımından karşılaştırmalar yapılmıştır. Çalışma sonucunda Ehrami Karaçam’ın, ortalama boy, dip çap, göğüs yüksekliği çapı ve tepe çapı değerleri sırasıyla 9.9 m, 29.3 cm, 25.1 cm ve 302.5 cm bulunmuştur. Örnek alanlar boy, dip çap ve göğüs yüksekliği çapı bakımından istatistiksel bakımdan anlamlı (p<0.05) farklılık gösterirken, tepe çapı bakımından benzerlik (p>0.05) göstermiştir. Uygulanan varyans analizi sonucunda, Ehrami Karaçam, Anadolu Karaçamı ve Toros Sediri arasında; boy, dip çap, göğüs yüksekliği çapı ve tepe çapı bakımından önemli (p<0.05) farklılıklar olduğu ortaya çıkmıştır. Anadolu Karaçamı’nın çalışmaya konu özellikler bakımından, Ehrami Karaçam ve Toros Sediri’ne göre daha yüksek büyüme performansı gösterdiği belirlenmiştir. Korelasyon analizi sonuçları, özellikler arasında genel olarak anlamlı (p<0.05) pozitif ilişkiler ortaya çıkarmıştır.
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26

Bielska, Katarzyna, Agata Cygan, Magdalena Konefał, Grzegorz Kowzan, Mikołaj Zaborowski, Dominik Charczun, Szymon Wójtewicz et al. „Frequency-based dispersion Lamb-dip spectroscopy in a high finesse optical cavity“. Optics Express 29, Nr. 24 (10.11.2021): 39449. http://dx.doi.org/10.1364/oe.443661.

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27

Kassi, S., T. Stoltmann, M. Casado, M. Daëron und A. Campargue. „Lamb dip CRDS of highly saturated transitions of water near 1.4 μm“. Journal of Chemical Physics 148, Nr. 5 (07.02.2018): 054201. http://dx.doi.org/10.1063/1.5010957.

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28

Meyer, F., J. Dupre, C. Meyer, J. G. Lahaye und A. Fayt. „Lamb-dip laser Stark spectroscopy of propyne: Analysis of the ν5 band“. Canadian Journal of Physics 63, Nr. 9 (01.09.1985): 1184–88. http://dx.doi.org/10.1139/p85-192.

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Laser Stark spectra for the ν5 parallel band of CH3C2H were measured by using a 13CO2 laser. Sixty resonances were assigned to transitions with a lower state, K ≤ 5. These transitions were combined with previous 12CO2-laser Stark data and zero-field lines. Effective vibration–rotation parameters and the dipole moments of the lower and upper levels were determined with high accuracy.
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29

Carvalho, C. R., und L. Davidovich. „Dynamic Lamb-dip effects in gas lasers with inhomogeneously broadened saturable absorbers“. Physical Review A 45, Nr. 9 (01.05.1992): 6748–55. http://dx.doi.org/10.1103/physreva.45.6748.

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30

Dore, L., A. Mazzavillani, L. Cludi und G. Cazzoli. „Lamb–Dip Millimeter-Wave and High-Resolution Far Infrared Spectra of HCCF“. Journal of Molecular Spectroscopy 189, Nr. 2 (Juni 1998): 224–27. http://dx.doi.org/10.1006/jmsp.1998.7548.

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31

Ogiwara, Kohei, Mitsutoshi Aramaki, Shinji Yoshimura, Yuta Itoh, Yoshiyuki Kato und Masayoshi Y. Tanaka. „Lamb-Dip Laser-Induced Fluorescence Spectroscopy for Measuring Magnetic Field in a Plasma“. Japanese Journal of Applied Physics 50, Nr. 3R (01.03.2011): 036101. http://dx.doi.org/10.7567/jjap.50.036101.

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32

Mazzotti, Davide, Simone Borri, Pablo Cancio, Giovanni Giusfredi und Paolo De Natale. „Low-power Lamb-dip spectroscopy of very weak CO_2 transitions near 425 µm“. Optics Letters 27, Nr. 14 (15.07.2002): 1256. http://dx.doi.org/10.1364/ol.27.001256.

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33

Ogiwara, Kohei, Mitsutoshi Aramaki, Shinji Yoshimura, Yuta Itoh, Yoshiyuki Kato und Masayoshi Y. Tanaka. „Lamb-Dip Laser-Induced Fluorescence Spectroscopy for Measuring Magnetic Field in a Plasma“. Japanese Journal of Applied Physics 50 (22.03.2011): 036101. http://dx.doi.org/10.1143/jjap.50.036101.

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34

Golubiatnikov, G. Yu, A. V. Lapinov, A. Guarnieri und R. Knöchel. „Precise Lamb-dip measurements of millimeter and submillimeter wave rotational transitions of 16O12C32S“. Journal of Molecular Spectroscopy 234, Nr. 1 (November 2005): 190–94. http://dx.doi.org/10.1016/j.jms.2005.08.012.

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35

Tao, Lei-Gang, Tian-Peng Hua, Yu R. Sun, Jin Wang, An-Wen Liu und Shui-Ming Hu. „Frequency metrology of the acetylene lines near 789 nm from lamb-dip measurements“. Journal of Quantitative Spectroscopy and Radiative Transfer 210 (Mai 2018): 111–15. http://dx.doi.org/10.1016/j.jqsrt.2018.02.021.

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36

Borri, S., S. Bartalini, I. Galli, P. Cancio, G. Giusfredi, D. Mazzotti, A. Castrillo, L. Gianfrani und P. De Natale. „Lamb-dip-locked quantum cascade laser for comb-referenced IR absolute frequency measurements“. Optics Express 16, Nr. 15 (18.07.2008): 11637. http://dx.doi.org/10.1364/oe.16.011637.

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37

Meijer, Gerard, Wim Ubachs, J. J. Ter Meulen und A. Dymanus. „High-resolution lamb dip spectroscopy on OD and SiCl in a molecular beam“. Chemical Physics Letters 139, Nr. 6 (September 1987): 603–11. http://dx.doi.org/10.1016/0009-2614(87)87350-5.

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38

Spiric, Aurelija, und Snezana Saicic. „Monitoring Chlorinated Pesticides and Toxic Elements in Tissues of Food-Producing Animals in Yugoslavia“. Journal of AOAC INTERNATIONAL 81, Nr. 6 (01.11.1998): 1240–44. http://dx.doi.org/10.1093/jaoac/81.6.1240.

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Abstract According to the established monitoring program in Yugoslavia, 941 swine, 561 cattle, and 358 lamb samples collected during a 5-year period were analyzed for chlorinated pesticide residues. Less than 10% of the examined samples contained residues of HCB (hexachlorobenzene), HCH (hexachlorocyclohexane), lindane (ɤ-hexachlorocyclohexane), and total DDT (p,p′-DDT and metabolites) at concentrations greater than the lowest detectable limit. None of the swine and cattle samples exceeded the residue limit (RL). Among lamb samples, 2.5% contained lindane residues exceeding the RL, with a mean of 4.75 mg/kg. This finding suggests lindane's improper use as a veterinary pesticide, probably as a sheep-dip for destroying ectoparasites. During the same period, 849 swine, 584 cattle, and 350 lamb samples also were analyzed for toxic elements (Pb, Cd, Hg, and As). In the majority of samples, toxic elements were present at levels less than 50% of RLs. Only Cd and Pb RLs were exceeded in several cases. Differences in trace element contents of samples from different animals were not significant. The data indicate that residues in tissues of food-producing animals do not have a great potential impact on public health.
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39

Rahman, Habibur, Hazrat Ali, Rafi Ud Din, Iftikhar Ahmad, Mahidur R. Sarker und Sawal Hamid Md Ali. „Coherent Surface Plasmon Hole Burning via Spontaneously Generated Coherence“. Molecules 26, Nr. 21 (27.10.2021): 6497. http://dx.doi.org/10.3390/molecules26216497.

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Surface plasmon (SP)—induced spectral hole burning (SHB) at the silver-dielectric interface is investigated theoretically. We notice a typical lamb dip at a selective frequency, which abruptly reduces the absorption spectrum of the surface plasmons polaritons (SPP). Introducing the spontaneous generated coherence (SGC) in the atomic medium, the slope of dispersion becomes normal. Additionally, slow SPP propagation is also noticed at the interface. The spectral hole burning dip is enhanced with the SGC effect and can be modified and controlled with the frequency and intensity of the driving fields. The SPP propagation length at the hole-burning region is greatly enhanced under the effect of SGC. A propagation length of the order of 600 µm is achieved for the modes, which is a remarkable result. The enhancement of plasmon hole burning under SGC will find significant applications in sensing technology, optical communication, optical tweezers and nano-photonics.
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40

Kuwahara, Akira. „Lamb-Dip Laser-Induced Fluorescence Spectroscopy in a Supersonic Plasma Jet for Isotope Identification“. ISIJ International 62, Nr. 9 (15.09.2022): 1967–69. http://dx.doi.org/10.2355/isijinternational.isijint-2022-080.

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41

Cazzoli, G., L. Cludi, C. Degli Esposti und L. Dore. „Lamb-dip absorption spectroscopy in the far infrared region using a laser sideband spectrometer“. Journal of Molecular Spectroscopy 151, Nr. 2 (Februar 1992): 378–83. http://dx.doi.org/10.1016/0022-2852(92)90573-7.

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42

Yan, H., T. Kurosawa, A. Onae und E. Sakuna. „Frequency stabilization of a CO2 laser using Lamb-dip from a photo-acoustic cell“. Optics Communications 73, Nr. 2 (September 1989): 136–40. http://dx.doi.org/10.1016/0030-4018(89)90158-2.

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43

Awaji, Y., H. Sasada, K. Nakagawa, M. de Labachelerie und M. Ohtsu. „Optical frequency measurement of the H^12C^14N Lamb-dip-stabilized 15-μm diode laser“. Optics Letters 20, Nr. 19 (01.10.1995): 2024. http://dx.doi.org/10.1364/ol.20.002024.

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44

An, Kyungwon, Ramachandra R. Dasari und Michael S. Feld. „One‐step absolute frequency stabilization of a Ti:sapphire laser using frequency modulation Lamb‐dip spectroscopy“. Applied Physics Letters 66, Nr. 17 (24.04.1995): 2162–64. http://dx.doi.org/10.1063/1.113933.

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45

Cazzoli, Gabriele, und Cristina Puzzarini. „The Lamb-dip spectrum of phosphine: The nuclear hyperfine structure due to hydrogen and phosphorus“. Journal of Molecular Spectroscopy 239, Nr. 1 (September 2006): 64–70. http://dx.doi.org/10.1016/j.jms.2006.05.019.

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46

Melosso, Mattia, Luca Dore, Jürgen Gauss und Cristina Puzzarini. „Deuterium hyperfine splittings in the rotational spectrum of NH2D as revealed by Lamb-dip spectroscopy“. Journal of Molecular Spectroscopy 370 (April 2020): 111291. http://dx.doi.org/10.1016/j.jms.2020.111291.

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47

Cazzoli, Gabriele, Cristina Puzzarini, Stella Stopkowicz und Jürgen Gauss. „The rotational spectrum of trans-DCOOD: Lamb-dip measurements, THz spectroscopy and quantum-chemical calculations“. Chemical Physics Letters 502, Nr. 1-3 (Januar 2011): 42–47. http://dx.doi.org/10.1016/j.cplett.2010.12.023.

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48

Troitskiĭ, Yu V., und V. A. Khanov. „Causes of scatter of the emission frequency of gas lasers stabilized using the Lamb dip“. Soviet Journal of Quantum Electronics 16, Nr. 9 (30.09.1986): 1262–64. http://dx.doi.org/10.1070/qe1986v016n09abeh007484.

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49

Cazzoli, G., L. Dore, C. Puzzarini und S. Beninati. „Millimeter- and submillimeter-wave spectrum of C17O. Rotational hyperfine structure analyzed using the Lamb-dip technique“. Physical Chemistry Chemical Physics 4, Nr. 15 (14.06.2002): 3575–77. http://dx.doi.org/10.1039/b203245g.

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50

Remillard, Jeffrey, D. Uy, Willes Weber, Federico Capasso, Claire Gmachl, A. Hutchinson, D. Sivco, J. Baillargeon und A. Cho. „Sub-Doppler resolution limited Lamb-dip spectroscopy of NO with a quantum cascade distributed feedback laser“. Optics Express 7, Nr. 7 (25.09.2000): 243. http://dx.doi.org/10.1364/oe.7.000243.

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