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IEEE Journal of Quantum Electronics, 1991
A Cerenkov microlaser (CML) is proposed. The device uses an electron beam and a semiconducting-film-loaded open, quasi-optical resonator to produce coherent, electromagnetic radiation at submillimeter and far-infrared wavelengths. General expressions for the tuning, gain, and constraints due to beam quality are used, together with optical and material ...
E. Fisch, A.K. Henning, J. Walsh
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A Cerenkov microlaser (CML) is proposed. The device uses an electron beam and a semiconducting-film-loaded open, quasi-optical resonator to produce coherent, electromagnetic radiation at submillimeter and far-infrared wavelengths. General expressions for the tuning, gain, and constraints due to beam quality are used, together with optical and material ...
E. Fisch, A.K. Henning, J. Walsh
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Ultrafast control of vortex microlasers
Science, 2020Ultrafast vortex microlasers For applications in ultrafast communication, all-optical switches will require low energy consumption, high speed, a strong modulation ratio, a small footprint, and on-chip integration. Although the small footprint and on-chip integration are accessible, the trade-off between low energy consumption ...
Can Huang +12 more
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Monolithic-integrated microlaser encoder
Applied Optics, 1999We have developed an extremely small integrated microencoder whose sides are less than 1 mm long. It is 1/100 the size of conventional encoders. This microencoder consists of a laser diode, monolithic photodiodes, and fluorinated polyimide waveguides with total internal reflection mirrors.
R, Sawada +4 more
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From micromasers to microlasers
Conference on Lasers and Electro-Optics Europe, 1994The one-atom maser or micromaser is, in contrary to ordinary masers and lasers, a pure quantum device operating with only a few photons and less than one pump atom on the average in the maser cavity. It is thus an ideal device to study quantum phenomena such as the generation of nonclassical light.
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Starch-Based Biological Microlasers
ACS Nano, 2016Microlasers with good biocompatibility are of great significance to the detection of tiny changes in biological systems. Most current biolasers were realized through the introduction of biomaterials into various external resonators, resulting in an increase of difficulties in application. Here, we used starch as the host to build dye@starch microlasers
Yanhui Wei +5 more
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Optical Society of America Annual Meeting, 1992
Optical microresonators are of interest for studies of quantum electrodynamic (QED) phenomena as well as for low threshold microlasers and efficient LEDs. As the optical mode volume of a microresonator approaches a cubic wavelength, the number of modes interacting with the optically active spectral region in the microresonator approaches unity.
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Optical microresonators are of interest for studies of quantum electrodynamic (QED) phenomena as well as for low threshold microlasers and efficient LEDs. As the optical mode volume of a microresonator approaches a cubic wavelength, the number of modes interacting with the optically active spectral region in the microresonator approaches unity.
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Nd:YAG/V:YAG Monolith Microlaser
Advanced Solid-State Photonics (TOPS), 2005Stable cw Q-switched output at wavelength 1.34 μm with length of pulses 11 ns and peak power 6.1 kW with frequency 6.4 kHz was obtained from a monolith -- longitudinally diode pumped Q-switched Nd:YAG/V:YAG laser.
J Šulc +5 more
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Science, 2016
Optics Structured light, in the form of helical wavefronts, provides an additional degree of freedom to encode information for optical communications. Creating light beams with the desired amount of optical angular momentum, or twist, has usually been achieved with bulk optic devices. Miao et al.
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Optics Structured light, in the form of helical wavefronts, provides an additional degree of freedom to encode information for optical communications. Creating light beams with the desired amount of optical angular momentum, or twist, has usually been achieved with bulk optic devices. Miao et al.
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Optical Society of America Annual Meeting, 1990
A scanned laser microscope with no moving parts is described. The source for this device is an array of 250 000 microlasers on a single substrate, each laser being typically 2 mm in diameter. The entire array is imaged on the microscope's object plane, but only one laser emits light at a given instant.
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A scanned laser microscope with no moving parts is described. The source for this device is an array of 250 000 microlasers on a single substrate, each laser being typically 2 mm in diameter. The entire array is imaged on the microscope's object plane, but only one laser emits light at a given instant.
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An Ultralow-Threshold Microlaser
EQEC 96 1996 European Quantum Electronic Conference EQEC-96, 1996In our experiment Nd3+ ions are pumped with a diode laser at 807nm using a resonant WG mode. The coupling to this mode is achieved via frustrated total internal reflection using a high index prism. The emission from the ions is then coupled out via the Same prism and is diagnosed using a spectrometer and a Fabry-Perot.
V. Sandoghdar +5 more
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