Difficulty: Easy
Correct Answer: 1, 3, 4 are correct
Explanation:
Introduction / Context:Semiconductor LEDs and LASER diodes are both widely used optical sources. However, they differ fundamentally in emission mechanism and optical characteristics, which drives their use in communications, sensing, and illumination.
Given Data / Assumptions:
Concept / Approach:
LASERs provide stimulated emission with optical feedback, producing a coherent, narrow spectral line (small Δλ) and strong optical confinement in a cavity and waveguide. LEDs emit by spontaneous recombination over a broader spectrum and generally lower external efficiency into a given optical mode.
Step-by-Step Solution:
1) Efficiency: Many LASER diodes exhibit higher slope and wall-plug efficiencies into single-mode fibers than comparable LEDs → statement 1 true in typical communications contexts.2) Tuning: LASERs can be tuned via temperature, current, or external cavities; saying “no tuning arrangement” is incorrect → statement 2 false.3) Spectral width: LASERs have narrow linewidth; LEDs are broadband → statement 3 true.4) Confinement: LASERs use optical cavities and waveguiding for mode control → statement 4 true.Verification / Alternative check:
Datasheets and textbooks show LED spectral widths of tens of nanometers versus LASER linewidths from sub-nanometer to much narrower; also, coherent beam quality and coupling efficiencies are higher for LASERs.
Why Other Options Are Wrong:
Any option including statement 2 is invalid because LASERs indeed can be tuned or include provision for tuning.
Common Pitfalls:
Assuming “efficiency” only means radiant flux per electrical watt without considering coupling into an optical mode; LASERs excel at delivering power into single-mode fibers.
Final Answer:
1, 3, 4 are correct
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