Subedi et., al., (2018) Imaging the Moho and the Main Himalayan Thrust in Western Nepal with receiver functions, Geophys. Res. Lett., https://doi.org/10.1029/2018GL080911
Hoste-Colomer et., al. (2018) Lateral variations of the midcrustal seismicity in western Nepal: seismotectonic implications, Earth Planet. Sci. Lett., 504, 115-125.
Girault et., al. (2018) Persistent CO2 emissions and hydrothermal unrest following the 2015 earthquake in Nepal. Nature communications, 9(1), 2956, DOI: 10.1038/s41467-018-05138-z
Hoste-Colomer et., al. (2016) Lateral structure variations and transient swarm revealed by seismicity along the Main Himalayan Thrust north of Kathmandu. Tectonophysics, 714-715, 107-116.
Sapkota et., al. (2016) Fatality rates of the M w~8.2, 1934, Bihar–Nepal earthquake and comparison with the April 2015 Gorkha earthquake. Earth, Planets and Space, 68(1), 1-9
Bhattarai et., al. (2016) Establishing a reference rock site for the site effect study in and around the Kathmandu valley, Nepal, Earth, Planets and Space, 68:81.
Bollinger et., al. (2016) Slip deficit in central Nepal: Omen for a repeat of the 1344AD earthquake? Earth, Planets and Space, 68, 1-12.
Hossler et., al. (2016) Surface ruptures of large Himalayan earthquakes in Western Nepal : Evidence along a reactivated strand of the Main Boundary Thrust. Earth Planet. Sci. Lett., 434, 187-196.
Bhattarai et., al. (2015) Overview of the Large 25 April 2015 Gorkha, Nepal, Earthquake from Accelerometric Perspectives, Seismological Research Letters, 86(6), 1540-1548.
Adhikari et., al. (2015) The aftershock sequence of the April 25 2015 Gorkha-Nepal earthquake. Geophys. J. Int. 203, 2119–2124.
Galetzka et., al. (2015) Slip pulse and resonance of the Kathmandu basin during the 2015 Gorkha earthquake, Nepal, Science, 349(6252), 1091-1095.
Girault et., al. (2014) Large-scale organization of carbon dioxide discharge in the Nepal Himalayas. Geophys. Res. Lett., 41(18), 6358-6366.
Bollinger et., al. (2014) Estimating the return times of great Himalayan earthquakes in Eastern Nepal: evidence from the Patu and Bardibas strands of the Main Frontal Thrust, J. Geophys. Res. Solid Earth, 119, 7123-7163.
Sapkota et., al. (2013) Primary surface ruptures of the great Himalayan earthquakes in 1934 and 1255, Nature Geoscience, 6, 71–76.
Girault et., al. (2012) Effective radium concentration across the Main Central Thrust in the Nepal Himalayas, Geochimica et Cosmochimica acta, 98, 203-227.
Ader et., al. (2012) Convergence rate across the Nepal Himalaya and interseismic coupling on the Main Himalayan Thrust: Implications for seismic hazard, Journal of Geophysical Research, 117.
Bhattarai et al., (2011) Capturing first records at the NSC accelerometric network , Nepal, Jour. Nep. Geol. Soc., 43, 15–22.
Flouzat et., al. (2009) Investigating tropospheric effects and seasonal position variations in GPS and DORIS time-series from the Nepal Himalaya. Geophysical Journal International, 178 (3), 1246-1259.
Bettinelli et., al. (2007) Seasonal variations of seismicity and geodetic strain in the Himalaya induced by surface hydrology, Earth Planet Science Letter, 266.
Bollinger et., al. (2007) Seasonal modulation of seismicity in the Himalaya of Nepal. Geophysical Research Letters, 34 (8).
Bettinelli et., al. (2006) Plate motion of India and Interseismic strain in the Nepal Himalaya from GPS and DORIS measurements, Journal of Geod., 80.
Lave et., al. (2005) Evidence for a great medieval earthquake (approximate to 1100 AD) in the central Himalayas, Nepal, Science 307.
Jouanne et., al. (2004) Current shortening across the Himalayas of Nepal, Geophys. J. Int., 157.
Bollinger et., al. (2004) Stress buildup in the Himalaya, Journal of Geophysical Research, 109
Bollinger et., al. (2004) Thermal structure and exhumation history of the Lesser Himalaya in central Nepal. Tectonics, 23 (5).
Perrier et., al. (2002) Estimating streaming potentials associated with geothermal circulation at the MCT in central Nepal, Jour. Nep. Geol. Soc., 26, 17-27
Perrier et., al. (2002) Geological, geochemical and electrical constrains on the transient flow mechanism of a periodic spring in Western Nepal, Jour. Nep. Geol. Soc., 26, 109-119.
Jouanne et., al. (1999) Oblique Convergence in the Himalayas of Western Nepal Deduced from Preliminary Results of GPS Measurements. Geophysical Research Letters, 26 (13), 1933-1936.
Lemonnier et., al. (1999) Electrical structure of the Himalaya of Central Nepal: high conductivity around the mid-crustal ramp along the MHT. Geophysical Research Letters, 26 (21), 3261-3264.
Pandey et., al. (1999) Seismotectonics of the Nepal Himalaya from a local seismic network. Journal of Asian Earth Sciences, 17 (5-6), 703-712.
Pandey et., al. (1995) Interseismic Strain Accumulation on the Himalayan Crustal Ramp (Nepal), Geophysical Research Letters, 22 (7), 751-754.
Pandey M. R. and Nicolas M. (1991) The aftershock sequence of the Udayapur (Nepal) earthquake of August 20, 1988, Jour. Nep. Geol. Soc., 7, 19-29.
Pandey M. R. and Molnar P. (1988) The distribution of intensity of the Bihar_Nepal Earthquake of 15 January 1934 and bounds on the extent of rupture zone, Jour. Nepal Geol. Soc., 5(1), 22-44.
Chitrakar G. R. and Pandey M. R. (1986) Historical earthquakes of Nepal, Bull Nep. Geol. Soc., 4, 7-8.
Pandey, M. R. (1985) Seismic model of central and eastern Lesser Himalaya of Nepal, Jour. Nep. Geol. Soc., 3(1 & 2), 1-11.
Singh V. (1985) Earthquake of July 1980 in Farwestern Nepal, Jour. Nep. Geol. Soc., 2(2), 1-11.
Hirn et., al (1984) Crustal structure and variability of the Himalayan border of Tibet, Nature, 307, 23–25.
Pandey, M. R. (1981) Velocity Determination of Kathmandu Complex, Jour. Nep. Geol. Soc., 1(1), 29-35.