Evaluation of Marbofloxacin in Beagle Dogs After Oral Dosing: Preclinical Safety Evaluation and Comparative Pharmacokinetics of Two Different Tablets

We propose and demonstrate a long-wavelength vertical cavity surface emitting laser (VCSEL) which consists of a (311)B InP-based active region and (100) GaAs-based distributed Bragg reflectors (DBRs), with an aim to control the in-plane polarization of output power. Crystal growth on (311)B InP substrates was performed under low-migration conditions to achieve good crystalline quality. The VCSEL was fabricated by wafer bonding, which enables us to combine different materials regardless of their lattice and orientation mismatch without degrading their quality. The VCSEL was polarized with a power extinction ratio of 31 dB.

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Low dark current InGaAs detector arrays for night vision and astronomy

MacDougal¹,

Geske²,

Wang³

et al. 2009

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Aerius Photonics has developed large InGaAs arrays (1K x 1K and greater) with low dark currents for use in night vision applications in the SWIR regime. Aerius will present results of experiments to reduce the dark current density of their InGaAs detector arrays. By varying device designs and passivations, Aerius has achieved a dark current density below 1.0 nA/cm 2 at 280K on small-pixel, detector arrays. Data is shown for both test structures and focal plane arrays. In addition, data from cryogenically cooled InGaAs arrays will be shown for astronomy applications.

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Temperature dependence of the relaxation resonance frequency of long-wavelength vertical-cavity lasers

Bjorlin

Geske

Mehta

et al. 2005

IEEE Photon. Technol. Lett.

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Uniform threshold current, continuous-wave, singlemode 1300 nm vertical cavity lasers from 0 to 70°C

et al. 1998

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Vertical and lateral heterogeneous integration

Geske

Okuno

Bowers

et al. 2001

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A technique for achieving large-scale monolithic integration of lattice-mismatched materials in the vertical direction and the lateral integration of dissimilar lattice-matched structures has been developed. The technique uses a single nonplanar direct-wafer-bond step to transform vertically integrated epitaxial structures into lateral epitaxial variation across the surface of a wafer. Nonplanar wafer bonding is demonstrated by integrating four different unstrained multi-quantum-well active regions lattice matched to InP on a GaAs wafer surface. Microscopy is used to verify the quality of the bonded interface, and photoluminescence is used to verify that the bonding process does not degrade the optical quality of the laterally integrated wells. The authors propose this technique as a means to achieve greater levels of wafer-scale integration in optical, electrical, and micromechanical devices.

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Low resistance intracavity-contacted oxide-aperture VCSELs

MacDougal

Geske

Lin

et al. 1998

IEEE Photon. Technol. Lett.

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Vertical-cavity surface-emitting laser active regions for enhanced performance with optical pumping

Geske

Gan

Okuno

et al. 2004

IEEE J. Quantum Electron.

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Abstract-We have developed an improved active region design for optically pumped vertical-cavity surface-emitting lasers. The design makes use of carrier-blocking layers to segment the absorber and promote uniform carrier populations in the quantum wells with pump efficiencies near 75%. A model to calculate the carrier distribution in the active region and a design methodology are presented along with a metric to describe the carrier uniformity in the quantum wells. Experimental verification of the performance improvements shows an over 50% reduction in device thresholds and an increase of 20 C in maximum operating temperatures.

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J. Geske

Design and fabrication of VCSELs with Al/sub x/O/sub y/-GaAs DBRs

1.3 μm wavelength vertical cavity surface emitting laser fabricated by orientation-mismatched wafer bonding: A prospect for polarization control

Low dark current InGaAs detector arrays for night vision and astronomy

Temperature dependence of the relaxation resonance frequency of long-wavelength vertical-cavity lasers

Uniform threshold current, continuous-wave, singlemode 1300 nm vertical cavity lasers from 0 to 70°C

Vertical and lateral heterogeneous integration

Low resistance intracavity-contacted oxide-aperture VCSELs

Vertical-cavity surface-emitting laser active regions for enhanced performance with optical pumping

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