020 ## - | |
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-- | 9781402064630 |
-- | 978-1-4020-6463-0 |
024 7# - | |
-- | 10.1007/978-1-4020-6463-0 |
-- | doi |
050 #4 - | |
-- | TA1-2040 |
072 #7 - | |
-- | TBC |
-- | bicssc |
072 #7 - | |
-- | TEC000000 |
-- | bisacsh |
082 04 - | |
-- | 620 |
-- | 23 |
100 1# - | |
-- | Ebrahim-Zadeh, Majid. |
-- | editor. |
245 10 - | |
-- | Mid-Infrared Coherent Sources and Applications |
-- | [electronic resource] / |
-- | edited by Majid Ebrahim-Zadeh, Irina T. Sorokina. |
246 3# - | |
-- | Results of the NATO Advanced Research Workshop on Middle Infrared Coherent Sources (MICS) 2005, Barcelona, Spain, 6-11 November 2005. |
264 #1 - | |
-- | Dordrecht : |
-- | Springer Netherlands, |
-- | 2008. |
300 ## - | |
-- | online resource. |
336 ## - | |
-- | text |
-- | txt |
-- | rdacontent |
337 ## - | |
-- | computer |
-- | c |
-- | rdamedia |
338 ## - | |
-- | online resource |
-- | cr |
-- | rdacarrier |
347 ## - | |
-- | text file |
-- | |
-- | rda |
490 1# - | |
-- | NATO Science for Peace and Security Series B: Physics and Biophysics, |
-- | 1874-6500 |
505 0# - | |
-- | Crystalline Laser and Nonlinear Optical Materials for the Mid-IR -- New Monocrystals with Low Phonon Energy for Mid-IR Lasers -- Orthorhombic Crystals of Lithium Thioindate and Selenoindate for Nonlinear Optics in the Mid-IR -- Quaternary Nonlinear Optical Crystals for the Mid-Infrared Spectral Range from 5 to 12 ?m -- Microstructured Semiconductors for Mid-Infrared Nonlinear Optics -- Sources in the Mid-IR -- Progress in Quantum Cascade Lasers -- High-Brightness 2.X ?m Semiconductor Lasers -- Broadband Mid-Infrared Solid-State Lasers -- New Regimes of Excitation and Mid-IR Lasing of Transition Metal Doped II–VI Crystals -- Advances in Mid-Infrared Fiber Lasers -- Mid-Infrared Optical Parametric Oscillators and Applications -- Mid-Infrared Integrated Optical Parametric Generators and Oscillators with Periodically Poled Ti:LiNbO3 Waveguides -- Optical Parametric Generators and Amplifiers -- Tunable THz Sources Based on Quasi-Phase-Matched Gallium Arsenide -- Semiconductor Waveguides for Nonlinear Frequency Conversion -- Applications -- Semiconductor Laser Based Trace Gas Sensor Technology: Recent Advances and Applications -- Trace Gas Analysis with Isotopic Selectivity Using DFG-Sources -- Photoacoustic Spectroscopy Using Continuous Wave Optical Parametric Oscillators -- Online Monitoring of Exhaled Breath Using Mid-Infrared Laser Spectroscopy -- Ultrabroadband Solid-State Lasers in Trace Gas Sensing -- Medical Applications of Mid-IR Solid-State Lasers -- Opportunities for Mid-IR Sources in Intense-Field and Attosecond Physics -- Ultrawideband Mid-Infrared Spectroscopy of Semiconductor Nanostructures. |
520 ## - | |
-- | Coherent sources of mid-infrared (mid-IR) radiation are of great interest for a wide range of scienti?c and technological applications from spectroscopy and frequency metrology to information technology, industrial process control, pho- chemistry, photobiology and photomedicine. The mid-IR spectrum, which may be de?ned as wavelengths beyond ?2µm, covers important atmospheric windows, and numerous molecular gases, toxic agents, air, water, and soil pollutants, c- ponents of human breath, and several explosive agents have strong absorption ?ngerprints in this region. The development of practical coherent solid-state sources in the mid-IR can thus provide indispensable tools for a variety of - plications in environmental monitoring and pollution control, detection of water and soil contaminants, food quality control, agriculture and life sciences, and n- invasive disease diagnosis and therapy through breath analysis. Coherent mid-IR sources also offer important technologies for atmospheric chemistry, free-space communication, imaging, rapid detection of explosives, chemical and biological agents, nuclear material and narcotics, as well as applications in air- and sea-born safety and security, amongst many. The timely advancement of coherent mid-IR sources is, therefore, vital to future progress in many application areas across a broad range of scienti?c, technological, and industrial disciplines. On the other hand, more than 40 years after the invention of laser, much of the mid-IR spectrum still remains inaccessible to conventional lasers due to fun- mental limitations, most notably a lack of suitable crystalline laser gain materials. |
650 #0 - | |
-- | Engineering. |
650 #0 - | |
-- | Weights and measures. |
650 #0 - | |
-- | Particles (Nuclear physics). |
650 14 - | |
-- | Engineering. |
650 24 - | |
-- | Engineering, general. |
650 24 - | |
-- | Measurement Science, Instrumentation. |
650 24 - | |
-- | Solid State Physics and Spectroscopy. |
700 1# - | |
-- | Sorokina, Irina T. |
-- | editor. |
710 2# - | |
-- | SpringerLink (Online service) |
773 0# - | |
-- | Springer eBooks |
776 08 - | |
-- | Printed edition: |
-- | 9781402064395 |
830 #0 - | |
-- | NATO Science for Peace and Security Series B: Physics and Biophysics, |
-- | 1874-6500 |
856 40 - | |
-- | http://dx.doi.org/10.1007/978-1-4020-6463-0 |
912 ## - | |
-- | ZDB-2-ENG |
950 ## - | |
-- | Engineering (Springer-11647) |
999 ## - | |
-- | 20685 |
-- | 20685 |
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