Sample cells and detector types – phototube, photomultiplier, photovoltaic cell, silicon photodiode MCQs With Answer

Sample cells and detector types – phototube, photomultiplier, photovoltaic cell, silicon photodiode MCQs With Answer

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Introduction: Sample cells (cuvettes) and optical detectors are central to pharmaceutical analysis using UV-Vis spectrophotometry, HPLC detectors and assay instrumentation. B. Pharm students should understand cuvette materials (glass, quartz, plastic), path length, and solvent compatibility plus detector types: phototube, photomultiplier, photovoltaic cell and silicon photodiode. Key concepts include photoelectric effect, quantum efficiency, responsivity, gain, dark current, biasing, spectral response, linearity and noise — all affecting sensitivity and accuracy in drug analysis. Practical knowledge helps in selecting detectors and cells for low-concentration assays, wavelength ranges and fast kinetics. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. Which cuvette material is best for accurate UV measurements below 200 nm?

  • Glass
  • Plastic
  • Fused quartz
  • Polystyrene

Correct Answer: Fused quartz

Q2. What primary physical effect allows phototubes and photomultipliers to detect light?

  • Thermoelectric effect
  • Photoelectric effect
  • Piezoelectric effect
  • Magneto-optic effect

Correct Answer: Photoelectric effect

Q3. Which detector provides intrinsic internal gain through a series of dynodes?

  • Photovoltaic cell
  • Silicon photodiode (unbiased)
  • Photomultiplier tube
  • PIN photodiode

Correct Answer: Photomultiplier tube

Q4. A photovoltaic cell generates voltage when illuminated. Its output is highest when operated:

  • In short-circuit with zero load
  • At open-circuit voltage
  • At maximum power point (matched load)
  • At reverse bias

Correct Answer: At maximum power point (matched load)

Q5. Which detector is most suitable for low-light, fast single-photon counting in a spectrophotometer?

  • Photomultiplier tube
  • Photovoltaic cell
  • Silicon PIN photodiode at zero bias
  • Thermopile detector

Correct Answer: Photomultiplier tube

Q6. In a silicon photodiode, reverse bias is applied primarily to:

  • Increase dark current
  • Reduce depletion region width
  • Increase bandwidth and responsivity by widening the depletion region
  • Generate a DC voltage for power

Correct Answer: Increase bandwidth and responsivity by widening the depletion region

Q7. Quantum efficiency (QE) of a detector is defined as:

  • The number of photons emitted per electron collected
  • The ratio of electrons generated to incident photons
  • The detector’s electrical power divided by optical power
  • The detector’s noise floor relative to signal

Correct Answer: The ratio of electrons generated to incident photons

Q8. Which detector typically has the lowest dark current at room temperature?

  • Photomultiplier tube
  • Silicon photodiode (reverse biased)
  • Photovoltaic cell (open circuit)
  • Thermocouple detector

Correct Answer: Photomultiplier tube

Q9. Responsivity of a photodiode is usually expressed in:

  • Ohms
  • A/W (amperes per watt)
  • Watts per square meter
  • Volts per lumen

Correct Answer: A/W (amperes per watt)

Q10. Which factor most directly limits the spectral range of a silicon photodiode?

  • Bandgap energy of silicon
  • Noise from the amplifier
  • Size of the depletion region
  • Mechanical packaging

Correct Answer: Bandgap energy of silicon

Q11. For routine UV-Vis measurements of drug solutions at 260 nm, which cuvette is appropriate?

  • Polystyrene cuvette
  • Standard glass cuvette
  • Quartz cuvette
  • Acrylic cuvette

Correct Answer: Quartz cuvette

Q12. The gain (multiplication factor) of a photomultiplier is mainly controlled by:

  • Wavelength of incident light only
  • Voltage applied across dynodes
  • Ambient temperature alone
  • Size of the photocathode only

Correct Answer: Voltage applied across dynodes

Q13. Which detector is most linear over a wide dynamic range without external gain stages?

  • Photomultiplier tube
  • Photovoltaic cell (solar cell)
  • Reverse-biased silicon photodiode with transimpedance amplifier
  • Geiger-mode avalanche photodiode

Correct Answer: Reverse-biased silicon photodiode with transimpedance amplifier

Q14. In spectrophotometric measurement, stray light primarily causes:

  • Improved sensitivity at low absorbance
  • Reduced baseline drift only
  • Underestimation of absorbance, especially at high absorbance values
  • No measurable effect

Correct Answer: Underestimation of absorbance, especially at high absorbance values

Q15. Which noise source typically dominates at low light levels in a silicon photodiode detector system?

  • Shot noise from signal and dark current
  • Johnson noise only from the source resistance
  • 1/f flicker noise only
  • Ambient acoustic noise

Correct Answer: Shot noise from signal and dark current

Q16. A phototube differs from a photomultiplier chiefly because:

  • Phototubes use semiconductor junctions while PMTs use dynodes
  • Phototubes have only a single electron-emitting cathode and no internal gain stages
  • Phototubes operate in reverse bias like photodiodes
  • Phototubes are insensitive to visible light

Correct Answer: Phototubes have only a single electron-emitting cathode and no internal gain stages

Q17. For fast kinetic measurements (microsecond response), the preferred detector among these is:

  • Thermopile
  • Photomultiplier tube with appropriate electronics
  • Photovoltaic cell
  • Average-response light meter

Correct Answer: Photomultiplier tube with appropriate electronics

Q18. Which of the following increases the signal-to-noise ratio (SNR) of a photodiode detector system?

  • Increasing detector temperature
  • Using a wider bandwidth amplifier
  • Using a transimpedance amplifier and optimizing bandwidth
  • Removing optical filters to increase total light

Correct Answer: Using a transimpedance amplifier and optimizing bandwidth

Q19. Avalanche photodiodes (APDs) differ from ordinary photodiodes by:

  • Operating at zero bias only
  • Providing internal multiplication via impact ionization under high reverse bias
  • Having no dark current
  • Being based on metal oxide semiconductors

Correct Answer: Providing internal multiplication via impact ionization under high reverse bias

Q20. Which detector would be least suitable for direct UV detection below 190 nm?

  • Fused quartz-window photomultiplier with UV photocathode
  • Silicon photodiode designed for UV with MgF2 window
  • Standard glass-window photodiode
  • Photovoltaic cell with quartz window

Correct Answer: Standard glass-window photodiode

Q21. Dark current in photodiodes is mainly caused by:

  • Ambient visible light only
  • Thermal generation of carriers in the depletion region
  • Photons emitted by the detector
  • Mechanical vibrations

Correct Answer: Thermal generation of carriers in the depletion region

Q22. When choosing a cuvette for organic solvent measurements, the most important consideration is:

  • Cuvette color only
  • Material chemical compatibility and optical transparency at the measurement wavelength
  • Price of the cuvette exclusively
  • Size of the cuvette lid

Correct Answer: Material chemical compatibility and optical transparency at the measurement wavelength

Q23. Which metric describes the smallest optical power change a detector system can reliably measure?

  • Bandwidth
  • Noise-equivalent power (NEP)
  • Quantum efficiency (QE)
  • Responsivity

Correct Answer: Noise-equivalent power (NEP)

Q24. In a PMT, the photocathode material selection primarily affects:

  • Mechanical durability only
  • Spectral sensitivity and quantum efficiency
  • Electrical capacitance exclusively
  • Operating temperature range only

Correct Answer: Spectral sensitivity and quantum efficiency

Q25. A flow cell in HPLC UV detection is used because it:

  • Increases path length but not reproducibility
  • Allows continuous measurement of eluate with controlled path length and low dispersion
  • Automatically eliminates baseline noise
  • Replaces the detector entirely

Correct Answer: Allows continuous measurement of eluate with controlled path length and low dispersion

Q26. Which of the following improves detector linearity at high light intensities?

  • Using an unamplified photovoltaic cell only
  • Reducing incident light or using neutral density filters
  • Increasing supply voltage to maximum
  • Cooling the sample only

Correct Answer: Reducing incident light or using neutral density filters

Q27. The primary advantage of silicon photodiodes over PMTs in many modern instruments is:

  • Higher gain without power supply
  • Lower cost, compactness and robustness for visible-NIR detection
  • Superior single-photon sensitivity in UV
  • No need for electronic readout

Correct Answer: Lower cost, compactness and robustness for visible-NIR detection

Q28. Which parameter describes how quickly a detector responds to a step change in light?

  • Quantum efficiency
  • Rise time or response time
  • Dark current
  • Spectral responsivity

Correct Answer: Rise time or response time

Q29. A transimpedance amplifier in photodiode circuits is used to:

  • Convert output resistance to capacitance
  • Convert photocurrent to a usable voltage with low noise
  • Supply bias current to the photodiode only
  • Generate photons for calibration

Correct Answer: Convert photocurrent to a usable voltage with low noise

Q30. In selecting a detector for trace-level drug analysis in UV, the most critical combined considerations are:

  • Detector color and size only
  • Sensitivity (NEP, QE), spectral match to analyte absorption, and noise characteristics
  • Price and brand exclusively
  • Whether it is photovoltaic or photoconductive only

Correct Answer: Sensitivity (NEP, QE), spectral match to analyte absorption, and noise characteristics

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