We have optimized the design of the broadband quantum cascade laser for continuous wave operation. The improved design leads to a gain ripple about 4 1/cm over more than 0.5 micron spectral range.
We have optimized the design of the broadband quantum cascade laser for continuous wave operation. The improved design leads to a gain ripple about 4 1/cm over more than 0.5 micron spectral range.
We consider the effects of gain flattening, ASE noise, multiple-path interference, and RIN noise transfer from pumps on broadband Raman amplification.
The present article presents a comparison between technologies used in the development of C# language systems for access to information in database management systems.
A 2DOF velocity amplified electromagnetic vibrational energy harvester is analyzed.
This paper presents switched Multi-Element Antennas (MEAs) as a simple, yet effective, method of enhancing the performance of small cell heterogeneous networks and compensating for the small cell b
Tunable dispersion compensators are an essential component for optical networks operating at 40 Gbits/s and beyond.
We investigate using DSP to generate 16QAM Nyquist-WDM signals and show that a 37-tap polyphase FIR filter and 1.2-symbol-rate DAC speed is sufficient for 16QAM Nyquist-WDM systems with 1.05-symbol
Optimization of phenolic chemically amplified resist platforms has lead to the development of new resists, capable of high throughput SCALPEL exposure.
Fault diagnosis is one of the most important tasks in fault management, in fact, one of the main steps of the fault management system is to detect failures as soon as they happen in order to minimi
