Center for Transformative Environmental Monitoring Programs

Jump to year: 2010, 2013, 2014, 2015, 2016, 2017, 2018, 2019

* indicates references utilizing CTEMPs instruments, technical support or guidance 

2023

• *Glover, H., Wengrove, M. and Holman, R., 2023. Distributed acoustic sensing of nearshore processes in Duck, NC, USA. In Coastal Sediments 2023: The Proceedings of the Coastal Sediments 2023 (pp. 1576-1583). https://doi.org/10.1142/9789811275135_0146.

2020

• Zhan, Zhongwen (2020). Distributed Acoustic Sensing Turns Fiber‐Optic Cables into Sensitive Seismic Antennas. Seismological Research Letters ; 91 (1): 1–15. doi: https://doi.org/10.1785/0220190112

2019

• Ajo-Franklin, J.B., Dou, S., Lindsey, N.J., Monga, I., Tracy, C., Robertson, M., Tribaldos, V.R., Ulrich, C., Freifeld, B., Daley, T. and Li, X., 2019. Distributed Acoustic Sensing Using Dark Fiber for Near-Surface Characterization and Broadband Seismic Event Detection. Scientific reports, 9(1), p.1328.
• Cartier, K. M. S. (2019), Unused fiber-optic cables repurposed as seismic sensors, Eos, 100,https://doi.org/10.1029/2019EO118025. Published on 08 March 2019.
• Lindsey, N.J., Dawe, T.C. and Ajo-Franklin, J.B., 2019. Illuminating seafloor faults and ocean dynamics with dark fiber distributed acoustic sensing. Science, 366(6469), pp.1103-1107.
• Williams, E.F., Fernández-Ruiz, M.R., Magalhaes, R. et al. Distributed sensing of microseisms and teleseisms with submarine dark fibers. Nat Commun 10, 5778 (2019). https://doi.org/10.1038/s41467-019-13262-7

Back to top

2018

• Costley, R. D. et al. Spectral analysis of surface waves with simultaneous fiber optic distributed acoustic sensing and vertical geophones. Journal of Environmental and Engineering Geophysics 23, 183–195 (2018).
• Jousset, P., Reinsch, T., Ryberg, T., Blanck, H., Clarke, A., Aghayev, R., Hersir, G.P., Henninges, J., Weber, M. and Krawczyk, C.M., 2018. Dynamic strain determination using fibre-optic cables allows imaging of seismological and structural features. Nature communications, 9(1), p.2509.
• Li, Z. & Zhan, Z. Pushing the limit of earthquake detection with distributed acoustic sensing and template matching: a case study at the Brady geothermal field. Geophysical Journal International 215, 1583–1593 (2018).
• Marra, G., Clivati, C., Luckett, R., Tampellini, A., Kronjäger, J., Wright, L., Mura, A., Levi, F., Robinson, S., Xuereb, A. and Baptie, B., 2018. Ultrastable laser interferometry for earthquake detection with terrestrial and submarine cables. Science, 361(6401), pp.486-490.
• Parker, L. et al. Active-source seismic tomography at the Brady geothermal field, Nevada, with dense nodal and fiber-optic seismic arrays. Seismological Research Letters 89, 1629–1640 (2018).

Back to top

2017

• Becker, M., Ciervo, C., Cole, M., Coleman, T. & Mondanos, M. Fracture hydromechanical response measured by fiber optic distributed acoustic sensing at millihertz frequencies. Geophysical Research Letters 44, 7295–7302 (2017).
• Becker, M., Coleman, T., Ciervo, C., Cole, M. & Mondanos, M. Fluid pressure sensing with fiber-optic distributed acoustic sensing. The Leading Edge 36, 1018–1023 (2017).
• Dou, S. et al. Distributed acoustic sensing for seismic monitoring of the near surface: A traffic-noise interferometry case study. Scientific reports 7, 11620 (2017)
• Lindsey, N.J., Martin, E.R., Dreger, D.S., Freifeld, B., Cole, S., James, S.R., Biondi, B.L. and Ajo‐Franklin, J.B., 2017. Fiber‐optic network observations of earthquake wavefields. Geophysical Research Letters, 44(23), pp.11-792.
• Martin, E. R. et al. Seismic monitoring leveraging existing telecom infrastructure at the SDASA: Active, passive, and ambient-noise analysis. The Leading Edge 36, 1025–1031 (2017)
• Wu, X. et al. Compressional-and shear-wave studies of distributed acoustic sensing acquired vertical seismic profile data. The Leading Edge 36, 987–993 (2017).
• Zeng, X. et al. Properties of noise cross-correlation functions obtained from a distributed acoustic sensing array at Garner Valley, California. Bulletin of the Seismological Society of America 107, 603–610 (2017).

Back to top

2016

• Daley, T., Miller, D., Dodds, K., Cook, P. & Freifeld, B. Field testing of modular borehole monitoring with simultaneous distributed acoustic sensing and geophone vertical seismic profiles at Citronelle, Alabama. Geophysical Prospecting 64, 1318–1334 (2016).
• Kuvshinov, B. Interaction of helically wound fibre-optic cables with plane seismic waves. Geophysical Prospecting 64, 671–688 (2016).

Back to top

2015

• Mondanos, M., Parker, T., Milne, C.H., Yeo, J., Coleman, T. and Farhadiroushan, M., 2015, May. Distributed temperature and distributed acoustic sensing for remote and harsh environments. In Sensors for Extreme Harsh Environments II (Vol. 9491, p. 94910F). International Society for Optics and Photonics.

Back to top

2014

• Mateeva, A. et al. Distributed acoustic sensing for reservoir monitoring with vertical seismic profiling. Geophysical Prospecting 62, 679–692 (2014).
• Parker, T., Shatalin, S. and Farhadisroushan, M. 2014. Distributed Acoustic Sensing - a new tool for seismic applications. firstbreak.org, volume 32.

Back to top

2013

• Daley, T. M. et al. Field testing of fiber-optic distributed acoustic sensing (DAS) for subsurface seismic monitoring. The Leading Edge 32, 699–706 (2013).
• Mateeva, A. et al. Distributed acoustic sensing for reservoir monitoring with VSP. The Leading Edge 32, 1278–1283 (2013).

Back to top

2010

• Nagel, J. A., Woodward, S. & Zou, L. Long-term monitoring of local temperature and strain changes in a buried fiber-optic cable using Brillouin OTDR. In Frontiers in Optics, FMC1 (Optical Society of America, 2010)

Back to top