Simultaneous measurements of temperature and CO2 concentration employing diode laser absorption near 2.0 μm

“…The difference between the lower state energy of the two transitions is ∼500 cm −1 . According to our previous discussion of the sensor sensitivity given in Cai et al., 41 a temperature accuracy of 2.5% can be obtained over the temperature range of 500–1200 K if the 2 f peak heights can be determined within 1%. Hence this lower state energy difference can yield enough sensitivity for the temperature measurement in this work.…”

“…[38][39][40] Those works aimed at the measurement of CO 2 concentration rather than simultaneous measurements of temperature and CO 2 concentration at high pressure. In our previous work, 41 we presented a traditional scan-wavelength WMS senor using DFB diode lasers near 2.0 mm. The sensor can be used for simultaneous measurements of gas temperature and CO 2 concentration at high temperature and atmospheric pressure.…”

High-Pressure Measurements of Temperature and CO₂ Concentration Using Tunable Diode Lasers at 2 μm

“…The difference between the lower state energy of the two transitions is ∼500 cm −1 . According to our previous discussion of the sensor sensitivity given in Cai et al., 41 a temperature accuracy of 2.5% can be obtained over the temperature range of 500–1200 K if the 2 f peak heights can be determined within 1%. Hence this lower state energy difference can yield enough sensitivity for the temperature measurement in this work.…”

“…[38][39][40] Those works aimed at the measurement of CO 2 concentration rather than simultaneous measurements of temperature and CO 2 concentration at high pressure. In our previous work, 41 we presented a traditional scan-wavelength WMS senor using DFB diode lasers near 2.0 mm. The sensor can be used for simultaneous measurements of gas temperature and CO 2 concentration at high temperature and atmospheric pressure.…”

High-Pressure Measurements of Temperature and CO₂ Concentration Using Tunable Diode Lasers at 2 μm

“…Trace gas detection has numerous significant applications in various fields, such as biomedical analyses [1,2], combustion diagnosis [3][4][5], atmospheric environmental monitoring [6][7][8][9], as well as petroleum exploration [10,11]. Gas sensing technology based on laser absorption spectroscopy (LAS) has a number of advantages, including high sensitivity, rapid response time, high selectivity, et al [12].…”

Highly Sensitive Trace Gas Detection Based on In-Plane Single-Quartz-Enhanced Dual Spectroscopy

“…The fingerprint region (2-20 µm) is full of strong vibrational fundamental absorption bands of many molecular gases [18], which is one of the primary reasons why this research field is growing. OFCs generated in the mid-IR wavelength region enable precise, real-time and high-resolution spectroscopy measurements [19][20][21], and these properties are particularly interesting in various applications, for example, medical apparatus [18,22,23], defense [24], environmental monitoring [25,26] and process control [27]. The most common DFG-based mid-IR OFC sources rely on the use of highly nonlinear optical fibers, which broaden the spectrum of an erbium comb into the 1 µm wavelength region.…”

A dual-wavelength amplifier that enables the simultaneous chirped-pulse amplification of femtosecond 1562 nm pulses and continuous wave 1064 nm radiation for applications in difference frequency generation