line-height:107%;font-family:" verdana",sans-serif"="">Fibre optic technologies
came out of military and space research and development programme. Until
recently, glass chemistry and laser interrogation hardware have not been at a
level of robust where systems could survive in down-hole environments for long
periods. Because of the physical properties, glass can thrive as a sensor at
extremely high temperatures and efficiently high temperatures and efficiently
transmit large quantities of data where as in the past, one may have been
limited to a couple of sensing points per well.
YGyrzIB5c00070f5c42e0.61720344, 3. (2018). FIBRE OPTIC IN RESERVOIR SENSING. Afribary. Retrieved from https://beta.afribary.com/works/fibre-optic-in-reservoir-sensing-4662
YGyrzIB5c00070f5c42e0.61720344, 3dWkc3T5c00070f5b8114.76252622 "FIBRE OPTIC IN RESERVOIR SENSING" Afribary. Afribary, 29 Jan. 2018, https://beta.afribary.com/works/fibre-optic-in-reservoir-sensing-4662. Accessed 24 Apr. 2025.
YGyrzIB5c00070f5c42e0.61720344, 3dWkc3T5c00070f5b8114.76252622 . "FIBRE OPTIC IN RESERVOIR SENSING". Afribary, Afribary, 29 Jan. 2018. Web. 24 Apr. 2025. < https://beta.afribary.com/works/fibre-optic-in-reservoir-sensing-4662 >.
YGyrzIB5c00070f5c42e0.61720344, 3dWkc3T5c00070f5b8114.76252622 . "FIBRE OPTIC IN RESERVOIR SENSING" Afribary (2018). Accessed April 24, 2025. https://beta.afribary.com/works/fibre-optic-in-reservoir-sensing-4662