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2 Jackett, R., "The eff ect of heat conduction on the realization of the primary standard for sound pressure" 51 : 423-430, 2014
3 Barham, R., "The application of the NPL laser pistonphone to the international comparison of measurement microphone" 44 : 210-216, 2007
4 Barham, R., "The NPL laser pistonphone" 12 : 36-38, 1994
5 Suh, J. -G., "Sensitivity measurement of a laboratory standard microphone by measuring the diaphragm vibration" 143 : 38-47, 2019
6 Barham, R., "Report on key comparison CCAUV.A-K1" 40 : 09002-, 2003
7 Hansen, P. C, "Rank-defi cient and discrete ill-posed problems" SIAM 1998
8 Dobosz, M., "Methods for the calibration of vibration pick-ups by laser interferometry : I. Theoretical analysis" 9 : 232-239, 1998
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10 "IEC 61094-2:2009 Measurement microphones—part 2:Primary method for pressure calibration of laboratory standard microphones by the reciprocity technique"
1 Cox, M. G., "The evaluation of key comparison data" 39 : 589-595, 2002
2 Jackett, R., "The eff ect of heat conduction on the realization of the primary standard for sound pressure" 51 : 423-430, 2014
3 Barham, R., "The application of the NPL laser pistonphone to the international comparison of measurement microphone" 44 : 210-216, 2007
4 Barham, R., "The NPL laser pistonphone" 12 : 36-38, 1994
5 Suh, J. -G., "Sensitivity measurement of a laboratory standard microphone by measuring the diaphragm vibration" 143 : 38-47, 2019
6 Barham, R., "Report on key comparison CCAUV.A-K1" 40 : 09002-, 2003
7 Hansen, P. C, "Rank-defi cient and discrete ill-posed problems" SIAM 1998
8 Dobosz, M., "Methods for the calibration of vibration pick-ups by laser interferometry : I. Theoretical analysis" 9 : 232-239, 1998
9 "JCGM 100:2008 Evaluation of measurement data—Guide to the expression of uncertainty in measurement"
10 "IEC 61094-2:2009 Measurement microphones—part 2:Primary method for pressure calibration of laboratory standard microphones by the reciprocity technique"
11 "IEC 61094-1:2000 Measurement microphones—Part 1:Specifi cation for laboratory standard microphones"
12 "IEC 16063-11:1999 Methods for the calibration of vibration and shock transducers—Part 11: Primary vibration calibration by laser interferometry"
13 Sinojmeri, M., "Final technical report for key comparison CCAUV.A-K2" 46 : 09006-, 2009
14 Avison, J., "Final report on key comparison CCAUV. A-K5 : pressure calibration of laboratory standard microphones in the frequency range 2 Hz to 10 kHz" 51 : 09007-, 2014
15 Bruns, T., "Final report on CIPM key comparison CCAUV. V-K2" 51 : 09002-, 2014
16 Qiao, S., "Final report of CCAUV. V-K3 : Key comparison in the fi eld of acceleration on the complex charge sensitivity" 54 : 09001-, 2017
17 Ratel, G., "Evaluation of the uncertainty of the degree of equivalence" 42 : 140-144, 2005
18 이영화, "Development of Capacitive-Type MEMS Microphone with CMOS Amplifying Chip" 한국정밀공학회 15 (15): 1423-1427, 2014
19 Zhang, F., "Acoustic properties of pistonphones at low frequencies in the presence of pressure leakage and heat conduction" 358 : 324-333, 2015
20 Gerber, H., "Acoustic properties of fl uid fi lled chambers at infrasonic frequencies in the absence of convection" 36 : 1427-1434, 1964
21 He, W., "A study on the pressure leakage correction of pistonphones at infrasonic frequencies" 335 : 105-114, 2015
22 Sadikoglu, E., "A laser pistonphone based on self-mixing interferometry for the absolute calibration of measurement microphones" 65 : 833-840, 2004
23 He, W., "A dedicated pistonphone for absolute calibration of infrasound sensors at very low frequencies" 27 : 025018-, 2016