Publications (2002-2017)

Artiklar | Böcker | Kapitel i böcker | Konferensbidrag


Artiklar


Vetenskapliga artiklar, refereegranskade

Gido, N., Bagherbandi, M. & Sjöberg, L. (2018). A gravimetric method to determine Horizontal Stress field due to flow in mantle in Fennoscandia. Geosciences Journal. [Accepted] [Mer information]
Baranov, A., Tenzer, R. & Bagherbandi, M. (2018). Combined Gravimetric–Seismic Crustal Model for Antarctica. Surveys in geophysics, 39 (1), 23-56. 10.1007/s10712-017-9423-5 [Mer information]
Tenzer, R., Foroughi, I., Sjöberg, L., Bagherbandi, M., Hirt, C. & Pitoňák, M. (2018). Definition of Physical Height Systems for Telluric Planets and Moons. Surveys in geophysics, 39 (3), 313-335. 10.1007/s10712-017-9457-8 [Mer information]
Tenzer, R., Chen, W., Baranov, A. & Bagherbandi, M. (2018). Gravity maps of Antarctic lithospheric structure from remote-sensing and seismic data. Pure and Applied Geophysics, 175 (6), 2181-2203. 10.1007/s00024-018-1795-z [Mer information]
Bagherbandi, M., Bai, Y., Sjöberg, L., Tenzer, R., Abrehdary, M., Miranda, S. & Sanchez, J. (2017). Effect of the lithospheric thermal state on the Moho interface : a case study in South America. Journal of South American Earth Sciences, 76, 198-207. 10.1016/j.jsames.2017.02.010 [Mer information]
Tenzer, R., Bagherbandi, M., Chen, W. & Sjöberg, L. (2017). Global Isostatic Gravity Maps From Satellite Missions and Their Applications in the Lithospheric Structure Studies. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 10 (2), 549-561. 10.1109/JSTARS.2016.2556219 [Mer information]
Abrehdary, M., Lars, S., Bagherbandi, M. & Sampietro, D. (2017). Towards the Moho depth and Moho density contrast along with their uncertainties from seismic and satellite gravity observations. Journal of Applied Geodesy, 11 (4), 231-247. 10.1515/jag-2017-0019 [Mer information]
Joud S., M., Sjöberg, L. & Bagherbandi, M. (2017). Use of GRACE Data to Detect the Present Land Uplift Rate in Fennoscandia. Geophysical Journal International, 209 (2), 909-922. 10.1093/gji/ggx063 [Mer information]
Bagherbandi, M. (2016). Deformation monitoring using different least squares adjustment methods : a simulated study. KSCE Journal of Civil Engineering, 20 (2), 855-862. 10.1007/s12205-015-0454-5 [Mer information]
Abrehdary, M., Sjöberg, L. & Bagherbandi, M. (2016). Modelling Moho depth in ocean areas based on satellite altimetry using Vening Meinesz-Moritz' method. Acta Geodaetica et Geophysica, 51 (2), 137-149. 10.1007/s40328-015-0116-6 [Mer information]
Abrehdary, M., Sjöberg, L. & Bagherbandi, M. (2016). The spherical terrain correction and its effect on the gravimetric-isostatic Moho determination. International Journal of Geophysics, 204 (1), 262-273. 10.1093/gji/ggv450 [Mer information]
Tenzer, R. & Bagherbandi, M. (2016). Theoretical deficiencies of isostatic schemes in modeling the crustal thickness along the convergent continental tectonic plate boundaries. Journal of Earth Science, 27 (6), 1045-1053. 10.1007/s12583-015-0608-x [Mer information]
Bagherbandi, M., Sjöberg, L., Tenzer, R. & Abrehdary, M. (2015). A new Fennoscandian crustal thickness model based on CRUST1.0 and a gravimetric-isostatic approach. Earth-Science Reviews, 145, 132-145. 10.1016/j.earscirev.2015.03.003 [Mer information]
Tenzer, R., Chen, W., Tsoulis, D., Bagherbandi, M., Sjöberg, L., Novák, P. & Jin, S. (2015). Analysis of the Refined CRUST1.0 Crustal Model and its Gravity Field. Surveys in geophysics, 36 (1), 139-165. 10.1007/s10712-014-9299-6 [Mer information]
Abrehdary, M., Sjöberg, L. & Bagherbandi, M. (2015). Combined Moho parameters determination using CRUST1.0 and Vening Meinesz-Moritz model. Journal of Earth Science, 26 (4), 607-616. 10.1007/s12583-015-0571-6 [Mer information]
Tenzer, R., Bagherbandi, M. & Sjöberg, L. (2015). Comparison of various isostatic marine gravity disturbances. Journal of Earth System Science, 124 (6), 1235-1245. 10.1007/s12040-015-0610-9 [Mer information]
Sjöberg, L., Bagherbandi, M. & Tenzer, R. (2015). On Gravity Inversion by No-Topography and Rigorous Isostatic Gravity Anomalies. Pure and Applied Geophysics, 172 (10), 2669-2680. 10.1007/s00024-015-1032-y [Mer information]
Bagherbandi, M., Tenzer, R., Sjöberg, L. & Abrehdary, M. (2015). On the residual isostatic topography effect in the gravimetric Moho determination. Journal of Geodynamics, 83, 28-36. 10.1016/j.jog.2014.11.002 [Mer information]
Bagherbandi, M., Tenzer, R. & Sjöberg, L. (2014). Moho depth uncertainties in the Vening-Meinesz Moritz inverse problem of isostasy. Studia Geophysica et Geodaetica, 58 (2), 227-248. 10.1007/s11200-013-1258-z [Mer information]
Sjöberg, L. & Bagherbandi, M. (2013). A study on the Fennoscandian post-glacial rebound as observed by present-day uplift rates and gravity field model GOCO02S. Acta Geodaetica et Geophysica Hungarica, 48 (3), 317-331. 10.1007/s40328-013-0025-5 [Mer information]
Bagherbandi, M. & Tenzer, R. (2013). Comparative analysis of Vening-Meinesz Moritz isostatic models using the constant and variable crust-mantle density contrast – a case study of Zealandia. Journal of Earth System Science, 122 (2), 339-348. 10.1007/s12040-013-0279-x [Mer information]
Novák, P., Tenzer, R., Eshagh, M. & Bagherbandi, M. (2013). Evaluation of gravitational gradients generated by Earth's crustal structures. Computers & Geosciences, 51, 22-33. 10.1016/j.cageo.2012.08.006 [Mer information]
Bagherbandi, M. & Tenzer, R. (2013). Geoid-to-Quasigeoid Separation Computed Using the GRACE/GOCE Global Geopotential Model GOCO02S : A Case Study of Himalayas and Tibet. Terrestrial, Atmospheric and Oceanic Science, 24 (1), 59-68. 10.3319/TAO.2012.09.17.02(TT) [Mer information]
Tenzer, R., Bagherbandi, M. & Vajda, P. (2013). Global model of the upper mantle lateral density structure based on combining seismic and isostatic models. Geosciences Journal, 17 (1), 65-73. 10.1007/s12303-013-0009-z [Mer information]
Bagherbandi, M., Tenzer, R., Sjöberg, L. & Novak, P. (2013). Improved global crustal thickness modeling based on the VMM isostatic model and non-isostatic gravity correction. Journal of Geodynamics, 66, 25-37. 10.1016/j.jog.2013.01.002 [Mer information]
Bagherbandi, M. & Sjöberg, L. (2013). Improving gravimetric–isostatic models of crustal depth by correcting for non-isostatic effects and using CRUST2.0. Earth-Science Reviews, 117, 29-39. 10.1016/j.earscirev.2012.12.002 [Mer information]
Tenzer, R., Bagherbandi, M., Cheinway, H. & Chang, E. (2013). Moho Interface Modeling Beneath the Himalayas, Tibet and Central Siberia Using GOCO02S and DTM2006.0. Terrestrial, Atmospheric and Oceanic Science, 24 (4), 581-590. 10.3319/TAO.2012.11.01.02(TibXS) [Mer information]
Tenzer, R. & Bagherbandi, M. (2013). Reference crust-mantle density contrast beneath Antarctica based  on the Vening Meinesz-Moritz isostatic inverse problem and CRUST2.0 seismic model. Earth Science Research, 17 (1), 7-12. [Mer information]
Bagherbandi, M. & Sjöberg, L. (2012). A synthetic Earth gravity model based on a topographic-isostatic model. Studia Geophysica et Geodaetica, 56 (4), 935-955. 10.1007/s11200-011-9045-1 [Mer information]
Bagherbandi, M. (2012). Combination of seismic and an isostatic crustal thickness models using Butterworth filter in a spectral approach. Journal of Asian Earth Sciences, 59, 240-248. 10.1016/j.jseaes.2012.08.008 [Mer information]
Bagherbandi, M. & Eshagh, M. (2012). Crustal thickness recovery using an isostatic model and GOCE data. Earth Planets and Space, 64 (11), 1053-1057. 10.5047/eps.2012.04.009 [Mer information]
Tenzer, R., Bagherbandi, M. & Vajda, P. (2012). Depth-dependent density change within the continental upper mantle. Slovak Academy of Sciences. Geophysical Institute. Contributions to Geophysics and Geodesy, 42 (1), 1-13. 10.2478/v10126-012-0001-z [Mer information]
Bagherbandi, M. (2012). Global earth isostatic model using smoothed Airy-Heiskanenand Vening Meinesz hypotheses. Earth Science Informatics, 5 (2), 93-104. 10.1007/s12145-012-0099-6 [Mer information]
Bagherbandi, M. (2012). Impact of compensating mass on the topographic mass : A study using isostatic and non-isostatic Earth crustal models. Acta Geodaetica et Geophysica Hungarica, 47 (1), 29-51. 10.1556/AGeod.47.2012.1.3 [Mer information]
Bagherbandi, M. & Sjöberg, L. (2012). Modelling the density contrast and depth of the Moho discontinuity by seismic and gravimetric–isostatic methods with an application to Africa. Journal of African Earth Sciences, 68, 111-120. 10.1016/j.jafrearsci.2012.04.003 [Mer information]
Bagherbandi, M. & Sjöberg, L. (2012). Non-isostatic effects on crustal thickness : A study using CRUST2.0 in Fennoscandia. Physics of the Earth and Planetary Interiors, 200, 37-44. 10.1016/j.pepi.2012.04.001 [Mer information]
Eshagh, M. & Bagherbandi, M. (2012). Quality description for gravimetric and seismic moho models of fennoscandia through a combined adjustment. Acta Geodaetica et Geophysica Hungarica, 47 (4), 388-401. 10.1556/AGeod.47.2012.4.2 [Mer information]
Bagherbandi, M. & Eshagh, M. (2012). Recovery of Moho’s undulations based on the Vening Meinesz–Moritz theory from satellite gravity gradiometry data : A simulation study. Advances in Space Research, 49 (6), 1097-1111. 10.1016/j.asr.2011.12.033 [Mer information]
Tenzer, R. & Bagherbandi, M. (2012). Reformulation of the Vening-Meinesz Moritz Inverse Problem of Isostasy for Isostatic Gravity Disturbances. International Journal of Geosciences, 3 (5A), 918-929. 10.4236/ijg.2012.325094 [Mer information]
Tenzer, R., Bagherbandi, M. & Gladkikh, V. (2012). Signature of the upper mantle density structure in the refined gravity data. Computational Geosciences, 16 (4), 975-986. 10.1007/s10596-012-9298-y [Mer information]

Övriga artiklar (populärvetenskap, debatt etc.)

Bagherbandi, M. & Eshagh, M. (2014). Combined Moho Estimators. Geodynamics : Research International Bulletin, 1 (3), 1-11. Länk [Mer information]

Böcker

Sjöberg, L. & Bagherbandi, M. (2017). Gravity Inversion and Integration : Theory and Applications in Geodesy and Geophysics. Cham: Springer Publishing Company. xiv, 383 s. 10.1007/978-3-319-50298-4 [Mer information]

Kapitel i böcker

Sjöberg, L. & Bagherbandi, M. (2016). Isostasy - Geodesy. Encyclopedia of Geodesy. Springer. 10.1007/978-3-319-02370-0_111-1 [Mer information]

Konferensbidrag

Nilfouroushan, F., Bagherbandi, M. & Gido, N. (2017). Ground Subsidence And Groundwater Depletion In Iran: Integrated approach Using InSAR and Satellite Gravimetry. . [Mer information]
Bagherbandi, M. & Tenzer, R. (2015). Comparative study of the uniform and variable Moho density contrast in the Vening Meinesz-Moritz’s isostatic scheme for the gravimetric Moho recovery. International Association of Geodesy Symposia : 3rd International Gravity Field Service, IGFS 2014; Shanghai; China; 30 June 2014 through 6 July 2014: Springer Berlin/Heidelberg. 10.1007/1345_2015_210 [Mer information]

 
1. Bagherbandi M. (2002). The best radius of stokes integral for computation of Geoid, journal of National Cartographic Center of Iran (NCC), in Persian.

2. Bagherbandi M. (2002). The atmospheric effect on gravity in the Stokes-Helmert Space , Report,  K.N.Toosi University of Technology Faculty of Geodesy & Geomatics Dep. Tehran , Iran.

3.  Bagherbandi M, Eshagh M., Sjöberg L.E. (2009). Multi- objective versus single-objective models in geodetic network optimization. Nordic Journal of Surveying and Real Estate Research Volume 6, Number 1, 2009.

4.  Eshagh M. Bagherbandi M. Sjöberg  L.E. (2011). A combined global Moho model based on seismic and gravimetric data . Acta Geophysica geodetica, vol 46(1), pp. 25-38, doi: 10.1556/AGeod.46.2100.1.3.

5.  Bagherbandi M. and Sjöberg L. E. (2011). Comparsion of crustal  thickness from two  isostatic models versus CRUST2.0, Stud. Geophys. Geod., 55 (2011), 641-666, DOI:  10.1007/s11200-010-9030-0.

6.  Sjöberg L. E.  and Bagherbandi M. (2011). A Method of Estimating the Moho Density Contrast With A Tentative Application by EGM08 and CRUST2.0. Acta  Geophysica, vol. 58, no. ,  pp. 1-24, doi: 10.2478/s11600-011-0003-7.

7.   Sjöberg L. E.  and Bagherbandi M. (2011). A Numerical Study of the Analytical Downward Continuation Error in Geoid Computation by EGM08. Journal of Geodetic Science, vol 1 pp. 2-8 DOI: 10.2478/v10156-010-0001-8.

8.  Eshagh M. and Bagherbandi M. (2011). Smoothing impact of isostatic crustal thickness models on local integral inversion of satellite gravity gradiometry data. Acta  Geophysica, vol. 59, no. 5, Oct. 2011, pp. 891-906 doi: 10.2478/s11600-011-0017-1.

9.  Bagherbandi M. and Eshagh M. (2012). Recovery of Moho's undulations based on the Vening Meinesz-Moritz theory from satellite gravity gradiometry data: A simulation study. Advances in Space Research 49 (2012) 1097—1111. doi:10.1016/j.asr.2011.12.033.

10.  Bagherbandi M. (2012). Impact of Compensating Mass on the Topographic Mass: A Study using Isostatic and Non-Isostatic Earth Crustal Models . Acta Geod. Geoph. Hung., Vol. 47(1), pp. 1—23 (2012) DOI: 10.1556/AGeod.47.2012.1.3.

11. Bagherbandi M. (2012). A Comparison of three gravity inversion methods for  crustal thickness modelling in Tibet plateau. Journal of Asian Earth Sciences, 43 (2012) 89-97. doi:10.1016/j.jseaes.2011.08.013.

12. Bagherbandi M. (2012). MohoIso: a MATLAB program to determine crustal thickness by an isostatic and a global gravitational model. Computers & Geosciences 44 (2012) 177-183, doi:10.1016/j.cageo.2011.10.012.

13. Bagherbandi M. (2012). Combination of Seismic and an Isostatic Crustal Thickness Models Using Butterworth Filter in a Spectral Approach. Journal of Asian Earth Sciences. 59 (2012) 240–248. http://dx.doi.org/10.1016/j.jseaes.2012.08.008.

14.  Eshagh M and Bagherbandi M. (2012). Quality description for gravimetric and seismic Moho models of Fennoscandia through a combined adjustment. Journal of Acta  Geophysica Hung. Vol. 47(4), pp. 1-14 (2012). doi: 10.1556/AGeod.47.2012.4.2

15.  Sjöberg L. E. and Bagherbandi M. (2012), Quasigeoid-to-geoid determination by EGM08. Journal of Earth Science Informatics. (2012) 5:87-91. DOI 10.1007/s12145-012-0098-7.

16. Bagherbandi M. and Sjöberg L. E. (2012), A synthetic Earth gravity model based on a topographic-isostatic model. Journal of Studia geophysica and geodetica. 56 (2012), DOI: 10.1007/s11200-011-9045-1.

17.  Bagherbandi M. and Tenzer R., (2013). Comparative analysis of Vening-Meinesz Moritz isostatic models using the constant and variable crust-mantle density contrast-a case study of Zealandia. Journal of Earth system Science. 122, no. 2 April 2013, pp. 339-348.

18.  Tenzer R, Bagherbandi M, Gladkikh V. (2012). Signature of the mantle density structure in the refined gravity data. Computational Geosciences. (2012) 16:975–986. DOI 10.1007/s10596-012-9298-y.

19.  Tenzer R, M. Bagherbandi, P. Sirguey and L. E. Sjöberg (2013). Assessment of the oceanic lithosphere density changes due to the ocean-floor spreading. (Submitted to Journal of Geodynamics). 

20.  Bagherbandi M. and Eshagh M. (2012). Crustal Thickness Recovery Using an Isostatic Model and GOCE Data. Earth, Planets and Space (EPS), 64, 1053-1057, 2012.

 21. Tenzer R, Bagherbandi M,  (2013), Reference crust-mantle density contrast beneath Antarctica based on inverse problem of isostasy and CRUST2.0 seismic model. Earth Sciences Research Journal, Vol. 17, No. 1 June 2013: 7-12.

22. Tenzer R, Bagherbandi M, Vajda P. (2013). Global model of the upper mantle lateral density structure based on combining seismic and isostatic models. Geosciences Journal. Vol. 17, no. 1, p 65-73. DoI: 10.1007/s12303-013-0009-z.

23.  Bagherbandi M. and Sjöberg L.E. (2012). Modelling the Density Contrast and Depth of the Moho Discontinuity by Seismic and Gravimetric-Isostatic Methods with an Application to Africa. Journal of African Earth Sciences 68 (2012) 111-120. doi: 10.1016/j.jafrearsci.2012.04.003.

24.  Bagherbandi M. and Sjöberg L.E., (2012). Non-Isostatic Effects on Crustal Thickness: A Study Using CRUST2.0 in Fennoscandia. Physics of the Earth and Planetary Interiors. 200-201 (2012) 37-44, doi: 10.1016/j.pepi.2012.04.001.

25. Bagherbandi M., (2012). Global Earth Isostatic Model Using Smoothed Airy-Heiskanen and Vening Meinesz Hypotheses. Journal of Earth Science Informatics (2012) 5:93-104. DOI: 10.1007/s12145-012-0099-6.

 26. Tenzer R, Bagherbandi M, Vajda P., (2012). Depth-dependent density change within the continental upper mantle. Contributions to Geophysics and Geodesy vol. 42/1. 2012 (1-13). doi: 10.2478/v10126-012-0001-z.

 27.  Tenzer R., M. Bagherbandi, C. Hwang , E. Tsui-Yu Chang (2012). Moho interface modeling beneath the Himalayas, Tibet and central Siberia using GOCO02S and DTM2006.0. Terr. Atmos. Ocean. Sci., Vol. 24, No. 4, Part I, 581-590, August 2013. doi: 10.3319/TAO.2012.11.01.02(TibXS).

28.     Bagherbandi M. and R Tenzer (2013).  Geoid-to-quasigeoid separation computed using the GRACE/GOCE global geopotential model GOCO02S — a case study of Himalayas, Tibet and central Siberia. Terrestrial, Atmospheric and Oceanic Sciences, 24(1): 59-68; doi: 10.3319/TAO.2012.09.17.02(TT).

29. Bagherbandi M. and Sjöberg L.E. (2013), Improving Gravimetric-Isostatic Models of Crustal Depth by Correcting for Non-Isostatic Effects and Using CRUST2.0.  Earth Science Review. February 2013, Pages 29–39. Doi:10.1016/j.earscirev.2012.12.002. Doi:10.1016/j.earscirev.2012.12.002.

30. Novak P., R. Tenzer, M. Eshagh,  M. Bagherbandi, (2013). Evaluation of gravitational gradients generated by Earth's crustal structures. Computers & Geosciences 51 (2013) 22-33. http://dx.doi.org/10.1016/j.cageo.2012.08.006

31. R. Tenzer and M. Bagherbandi, (2012). Reformulation of the Vening-Meinesz Moritz inverse problem of isostasy for isostatic gravity disturbances. International Journal of Geosciences, 2012, 3, 918-929 doi:10.4236/ijg.2012.325094.

32. Bagherbandi M., Tenzer R.,      Sjöberg L. E., Novak P. (2013). Improved global crustal thickness modeling based on the VMM      isostatic model and non-isostatic gravity correction. Journal of  Geodynamics 66 (2013) 25– 37.

33. Sjöberg L. E. and   Bagherbandi M. (2013). A  study  on  the  Fennoscandian  post-glacial  rebound  as  observed  by  present-day  uplift  rates  and  gravity  field  model  GOCO02S.  Acta  Geod  Geophys.  DoI:  10.1007/s40328-013-0025-5.

34. Bagherbandi M., Tenzer R. and Sjöberg   L.E. (2014). Moho depth uncertainties in the Vening-Meinesz Moritz inverse   problem of isostasy. Studia Geophysica et Geodaetica April 2014, Volume 58, Issue 2, pp 227-248.

 35. Tenzer R., Bagherbandi M., Sjöberg L.E., (2015). Comparison of various isostatic marine gravity disturbances. Journal of Earth System Science August 2015, Volume 124, Issue 6, pp 1235-1245.

36. Tenzer R, Bagherbandi M, Chen W, Sjöberg LE, Novák P, Hwang Ch (2013). Global maps of isostatic gravity disturbances. Earth-Science Review (submitted: 01/05/2013).

37. Sjöberg L.E., Bagherbandi M. and Tenzer R. (2015). Gravity inversion by no-topography and new isostatic  gravity anomalies. Pure and Applied Geophysics

October 2015, Volume 172, Issue 10, pp 2669-2680.

38. Tenzer R, Bagherbandi M, Sjöberg LE (2013). Isostatic crustal thickness under the Tibetan Plateau and Himalayas from satellite gravity gradiometry data. Submitted to TAO.

39. Tenzer Robert, Wenjin Chen, Dmitrios Tsoulis, Mohammad Bagherbandi, Lars E. Sjöberg, Pavel Novák (2015). Analysis of the refined CRUST1.0 crustal model and its gravity field. Surveys in Geophysics (2015) 36:139-165. DOI: 10.1007/s10712-12-014-9299-6.

40. Bagherbandi M., Robert Tenzer, Lars E. Sjöberg and Majid Abrehdary (2014).On the residual isostatic topography effect in the gravimetric Moho determination. Journal of Geodynamics 83 (2015) 28–36. http://dx.doi.org/10.1016/j.jog.2014.11.002.

41. Sjöberg L.E., Abrehdary M. and Bagherbandi M. (2014). The observed geoid height versus Airy's and Pratt's isostatic models using matched asymptotic expansions. Acta Geod Geophys (2014) 49:473–490. DOI 10.1007/s40328-014-0064-6.

42. Tenzer R, Bagherbandi M. (2014). Theoretical deficiences of the isostatic models for modelling the Moho geometry along the convergent continental tectonic plate boundaries Journal of Earth Science. DOI: 10.1007/s12583-015-0608-x.

43. Eshagh M. and Bagherbandi M. (2014). Combined Moho Estimators. Geodynamics Research International Bulletin. Vol. (I) - No. 03.44.

44. Tenzer R., Wenjin Chen, Bagherbandi M , Vajda P. (2014). Evidence of the ocean-floor spreading in marine gravity data. (Submitted to Intenational Geology Review).

45. Bagherbandi M., Sjöberg L.E., Tenzer R. and Abrehdary M., (2015). A New Fennoscandian Crustal Thickness Model based on CRUST1.0 and Gravimetric Isostatic Approach. Earth-Science Reviews 145 (2015) 132–145. DOI: 10.1016/j.earscirev.2015.03.003.

46. Abrehdary M., L E Sjöberg and M Bagherbandi, (2014). Combined Moho parameters determination using CRUST1.0 and Vening Meinez-Moritz Model. Journal of Earth Science. August 2015, Volume 26, Issue 4, pp 607-616.

47. Bagherbandi M. (2015). Deformation monitoring using different adjustment methods: A simulated study. KSCE Journal of Civil Engineering. pp. 1-8. DOI 10.1007/s12205-015-0454-5.

48. Abrehdary M., L E Sjöberg and M Bagherbandi, (2015). Modelling Moho depth in ocean areas based on satellite altimetry using Vening Meinez-Moritz method. Journal Acta Geodaetica et Geophysica. pp. 1-13. DOI 10.1007/s40328-015-0116-6.

49. Tenzer R., and Bagherbandi M., (2014). Comparative study of the uniform and variable Moho density contrast in the Vening Meinesz-Moritz’s isostatic scheme for the gravimetric Moho recovery. In: Jin SG (Ed) 3rd International Gravity Field Service (IGFS) General Assembly in Shanghai, China, IAG Symposia, Springer-Verlag Berlin Heidelberg (accepted: 06/12/2014).

50. Abrehdary M., L E Sjöberg and M Bagherbandi, (2016). The spherical terrain correction and its effect on the gravimetric-isostatic Moho determination. Geophys. J. Int. (January, 2016) 204 (1): 262-273.doi: 10.1093/gji/ggv450.

51. Abrehdary M., L E Sjöberg, M Bagherbandi and D. Sampietro, (2017). Towards the Moho depth and Moho density contrast along with their uncertainties from seismic and satellite gravity observations. Journal of Applied Geodesy. https://doi.org/10.1515/jag-2017-0019.

52. Bagherbandi M., Bai Y., Sjöberg L.E., Tenzer R., Abrehdary M., Miranda S., Sanchez J. M.A. (2017). Effect of the lithospheric thermal state on the Moho interface: A case study in South America. Journal of South American Earth Science. Doi: 10.1016/j.jsames.2017.02.010.


53. Baranov A., Tenzer R., Bagherbandi M., (2018). Combined gravimetric-seismic crustal model for Antarctica. Surv Geophys (2018) 39:23–56. https://doi.org/10.1007/s10712-017-9423-5.

54. Shafiei Joud S.M., Sjöberg L.E. and Bagherbandi M. (2017). Use of GRACE Data to Detect the Present Land Uplift Rate in Fennoscandia. Geophysical Journal International.

55. Gido N.A.A., Bagherbandi M., Sjöberg L. (2018). A gravimetric method to determine Horizontal Stress field due to flow in mantle in Fennoscandia. (Submitted to Geoscience Journal).


56. Shafiei Joud S.M., Bagherbandi M. and Sjöberg L.E. (2017). A New Inference of the Mantle viscosity from Isolating the Gravity Field Signal Related to the Present Land Uplift in Fennoscandia (submitted to International Association of Geodesy Symposia).


57. Robert Tenzer, Wenjin Chen, Alexey Baranov, Mohammad Bagherbandi (2017). Gravity maps of Antarctic lithospheric structure from remote-sensing and seismic data. Pure and Applied Geophysics. DOI: 10.1007/s00024-018-1795-z.


58. .Robert Tenzer; Ismael Foroughi; Lars E Sjöberg; Mohammad Bagherbandi; Christian Hirt and Martin Pitoňák, (2018). Definition of height systems for telluric planets and moons. Surveys in Geophysics. 10.1007/s10712-017-9457-8.


59. Gido N.A.A., Bagherbandi M., Sjöberg L. and Tenzer R. (2018). Studying permafrost by integration of satellite and in situ data in Arctic region. (Submitted to Acta Geophysica).

 
BOOK
 
1. Earth Crustal Modelling: Geodetic applications of the Vening Meinesz-Mortiz hypothesis:  by Mohammad Bagherbandi and Lars E. Sjöberg. Publisher: LAP LAMBERT Academic Publishing (2011).   ISBN-10: 3844397566 ISBN-13: 978-3844397567.

2. Encyclopedia of Geodes, Editor: Grafarend, Erik (Ed.) Chapter Isostasy. Springer. ISBN 978-3-319-01868-3. 

3. Gravity Inversion and Integration: Theory and Applications in Geodesy and Geophysics. Lars E. Sjöber and Mohammad Bagherbandi, 2017. Springer.

 

Publicerad av: Mohammad Bagherbandi Sidansvarig: Gunilla Mårtensson Sidan uppdaterades: 2018-02-21
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