-=# high-pressure tools: ruby #=-

Fluorescense pressure calculation and thermocouple tools

pressure calculation Mobile-friendly version is available here. For android devices a stand-alone application is available on Google Play. For iOs devices (iPhones and iPads) to make the mobile page available offline, click on this "magic" link and bookmark the opened page (you can then open this bookmark without internet connection). Alternative ruby and Sm:SrB₄O₇ fluorescence online pressure calculators can be found on James Badro homepage	temperature calculation Calculated values are exact when the cold junction is at 0 °C. Temperature correction is valid for cold junction temperature not higher than 250 °C. B-type thermocouple works only above about 90 °C, but is almost unsensitive to the cold junction temperature.
Ruby fluorescence Calibration: Reference ruby (nm) at T= (K) Measured ruby (nm) at T= (K) Pressure (GPa) Pressure dependence of ruby shift is from Dewaele A., Torrent M., Loubeyre P. and Mezouar M. (2008) Phys. Rev. B 78, 104102 Mao H.K., Xu J., and Bell P.M. (1986) J. Geophys. Res. 91, 4673 High temperature (T > 298) correction is from Rekhi S., Dubrovinsky L.S., and Saxena S.K. (1999) High Temp. - High Pres. 31, 299 Low temperature (T < 298) correction is a two-range polynom	Thermocouple calculator Select your thermocouple: Cold junction T (°C) Voltage (mV) Temperature is (°C) = (K) ± Thermocouple tables as PDF files Thermocouple type:
Sm:YAG fluorescence Calibration: Reference Sm:YAG line (nm) Measured Sm:YAG line (nm) Pressure (GPa) Calibration is from: Hess N.J. and Schiferl D., J. Appl. Phys. 71, 2082 (1992). Trots D.M., Kurnosov A., Boffa Ballaran T., Tkachev S., Zhuravlev K., Prakapenka V., Berkowski. M and Frost D., JGR:Solid Earth, 118, 5805 (2013) Note: this calibration is valid without temperature correction at least up to 800 K.	Sm:SrB₄O₇ fluorescence Calibration: Reference Sm:SrB₄O₇ peak (nm) Measured Sm:SrB₄O₇ peak (nm) Pressure (GPa) Calibration is from: Rashchenko S.V., Kurnosov A., Dubrovinsky L. and Litasov K., J. Appl. Phys. 117, 145902 (2015) Jing Q.M., Wu Q., Liu L., Xu J., Bi Y., Liu Y., Chen H., Liu S., Zhang Y., Xiong L., Li Y. and Liu J., J. Appl. Phys. 113, 023507 (2013) Datchi F., Le Toullec R., and Loubeyre P., J. Appl. Phys. 81, 3333–3339 (1997)
Diamond anvil Raman Reference diamond Raman peak (cm^-1) Measured position (cm^-1) Pressure (GPa) Calibration is from: Akahama Y. and Kawamura H., J. Appl. Phys. 100, 043516 (2006). Note: Raman signal should be measured at the center of culet. This scale is not valid to estimate pressure gradients. Temperature correction is not known. The "measured position" is the minimum of the Raman signal derivative (see image below).	Diamond Raman Ambient P diamond Raman peak (cm^-1) Measured position (cm^-1) Pressure (GPa) Calibration is from: Dubrovinskaia N. et al., Appl. Phys. Lett. 97, 251903 (2010). Note: It is not a Raman signal from an anvil, it is a peak from diamond inside the sample chamber.

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