International Laser Ranging Service

SLR Related Publications for 2024

Acciarini G., Brown E., Berger, T et al. (2024). “Improving thermospheric density predictions in low-Earth orbit with machine learning”, Space Weather, 22, e2023SW003652, doi:10.1029/2023SW003652.

Agnew, D.C. (2024). “A global timekeeping problem postponed by global warming”, Nature, doi: 10.1038/s41586-024-07170-0.

Akiyama K., Kawate K., Igaresh I. et al. (2024). “Simplified shadow model of solar radiation pressure for GNSS satellites with large communication antenna”, IGS Workshop 2024, July 1-5, Bern, Switzerland, (URL: https://files.igs.org/pub/resource/pubs/workshop/2024/IGSWS-2024-PY0201-Akiyama-Simplified_Shadow_Model_of_Solar_Radiation_Pressure.pdf) (Oral presentation by K. Akiyama: https://www.youtube.com/watch?v=JtA39xkyMGw)

Calliess D., Montenbruck O., Wermuth M., Reichinger H. (2024). “Long-term analysis of Sentinel-6A orbit determination: Insights from three years of flight data”, Adv. Space Res., 74(7), 3011–3027, doi: 10.1016/j.asr.2024.06.043

Cao Y.Z., Kuznetsov E., Miao C.Y. et al. (2024). “The current situation of Russia's GNSS continuous operating reference station network and thinking on future development”, Adv. Space Res., 73(8), 3896–3908, doi: 10.1016/j.asr.2024.01.002

Cheng M.K. (2024). “Decadal Variations in Equatorial Ellipticity and Principal Axis of the Earth from Satellite Laser Ranging/GRACE”, Surveys in Geophysics, 45(5), 1601–1626, doi: 10.1007/s10712-024-09852-w

Cheng M.K. (2024). “An updated estimate of geocenter variation from SLR data”, Remote Sensing, 16(7), doi:10.3390/rs16071189.

Ciufolini, I., Paris, C., Pavlis, E.C. et al. (2024). “On the high accuracy to test dragging of inertial frames with the LARES 2 space experiment”, Eur. Phys. J. C, 84, 998, doi:10.1140/epjc/s10052-024-13301-8

Conrad A., Axelrad P., Desai S., Haines B. (2024). “Sentinel-6 Michael Freilich precise orbit determination using PODRIX and TriG receiver measurements”, J. Geodesy, 98(39), doi:10.1007/s00190-024-01842-5.

Daras I., March G., Pail R. et al. (2023). "Mass-change And Geosciences International Constellation (MAGIC) expected impact on science and applications", Geophysical Journal International, 236(3), 1288–1308, doi: 10.1093/gji/ggad472.

Dilssner F., Springer T. (2024). “Taming the Invisible: All-Force Radiation Pressure Modeling for Multi-GNSS”, IGS Workshop 2024, July 1-5, Bern, Switzerland. (URL: https://files.igs.org/pub/resource/pubs/workshop/2024/IGSWS-2024-PY0202-Dilssner-Taming_the_Invisible.pdf) (Oral Presentation by F. Dilssner: https://www.youtube.com/watch?v=NcOVgDBNkxI)

Di Varano I., Tibuzzi M., Dell'Agnello S. and Salvatori L., “Thermal Simulations for the Laser Retro-Reflector Onboard Galileo 2nd Generation,” 2024 11th International Workshop on Metrology for AeroSpace (MetroAeroSpace), Lublin, Poland, 2024, pp. 377-381, doi: 10.1109/MetroAeroSpace61015.2024.10591544

Dostal J. (2024). “UN-GGCE -Enhancing Collaboration and Coordination”, IGS Workshop 2024, July 1-5, Bern, Switzerland. (URL: https://files.igs.org/pub/resource/pubs/workshop/2024/IGSWS-2024-PY0512-Dostal-UN-GGCE_-_Enhancing_Collaboration_and_Coordination.pdf). (Oral presentation by J. Dostal: https://www.youtube.com/watch?v=28zRxvZ2F78)

Drożdżewski M. and Sośnica K. (2024). “Troposphere delay modeling in SLR based on PMF, VMF3o, and meteorological data”, Prog Earth Planet Sci 11, 12, doi:10.1186/s40645-024-00613-2.

Fernández J., Peter H., Fernández C. et al. (2024). “The Copernicus POD Service”, Adv. Space Res., 74(6), 2615–2648, doi: 10.1016/j.asr.2024.02.056.

Fienga, A., Rambaux N., Sośnica K. (2024) “Lunar References Systems, Frames and Time-scales in the context of the ESA Programme Moonlight”, (Appendix of the ATLAS Concept document ESA contract AO/1-10712/21/NL/CRS), doi:10.48550/arXiv.2409.10043

Fienga A., Minazzoli O. (2024). “Testing theories of gravity with planetary ephemerides”, Living Reviews in Relativity, 27(1), doi: 10.1007/s41114-023-00047-0.

Frank, Jared M.A. (2024). “New Orbit Determination Technique Using Lunar Reflectors”, Ph.D Thesis, San Diego State University, California, U.S.A. (URL: https://digitalcollections.sdsu.edu/do/a9aab87a-c530-4571-a225-028dd1a21aeb)

Frank, J., Younes, A.B. (2024). “New Orbit Determination Technique Using Lunar Reflectors”, J. Astronautiical Sciences, 71(32), doi:10.1007/s40295-024-00448-5

Gałdyn F., Sośnica K., Zajdel R., et al. (2024). “How well can we derive the time-variable gravity field before the GRACE mission based on SLR data?”, GRACE/GRACE-FO Science Team Meeting, Potsdam, Germany, 8–10 Oct 2024, GSTM2024-39, doi:10.5194/gstm2024-39

Gałdyn F., Sośnica K. (2024). “Impact of the combination and replacement of SLR-based low-degree gravity field coefficients in GRACE solutions”, Prog Earth Planet Sci 11, 7, doi:10.1186/s40645-024-00608-z.

Gałdyn F., Sośnica K., Zajdel R., Meyer U., Jäggi A. (2024). “Long-term ice mass changes in Greenland and Antarctica derived from satellite laser ranging”, Remote Sensing of Environment, 302, 113194, doi: 10.1016/j.rse.2024.113994.

Gao T., Xue L., Ye S. (2024). “Near-infrared lunar laser ranging: Research on pointing error of Lunokhod 2 corner reflector based on effective echo signal broadening”, Infrared Physics and Technology, 137, 105095, doi: 10.1016/j.infrared.2023.105095.

Gao T.Q., Xue L. (2024). “Research on the influence of pointing error on effective echo intensity and walk error of lunar laser ranging”, Optics and Lasers in Engineering, 183, doi: 10.1016/j.optlaseng.2024.108456

Geng R., Wu Z., Huang Y. et al. (2024). “A complete analysis of the link uncertainty budget for pulsed laser time transfer on China space station”, Adv. Space Res., 73(5), 2548–2566, doi: 10.1016/j.asr.2023.12.022.

Goli M. and Le Maistre, S. (2024). “Lunar rotation and tides with Same-Beam Interferometry: Results of numerical simulations”, Europlanet Science Congress 2024, Berlin, Germany, 8–13 Sep 2024, EPSC2024-964, doi:10.5194/epsc2024-964

Goossens S., Matsuyama I., Cascioli G., Mazarico E. (2024). “A Low-Viscosity Lower Lunar Mantle Implied by Measured Monthly and Yearly Tides”, AGU Advances, 5(5), doi: 10.1029/2024AV001285

Hacker C., Kusche J. (2024). “How realistic are multi-decadal reconstructions of GRACE-like total water storage anomalies?”, J. Hydrology, 645(B), doi: 10.1016/j.jhydrol.2024.132180.

Hampf D., Niebler F., Meyer T. et al. (2024). “The miniSLR: a low-budget, high-performance satellite laser ranging ground station”, J. Geodesy, 98(8), doi: 10.1007/s00190-023-01814-1.

Hao Y., Xiaoya W., Yabo L. (2024). “Impact of Earth Radiation Pressure Physical Analytical Model on Satellite Laser Ranging Orbit Determination”, Earth and Planetary Sci., 3(1), 9–20, doi: 10.36956/eps.v3i1.967.

Ibáñez, Rubén Martinez (2024). “Estudio de control de actitud sobre satélites artificiales y basura espacial empleando datos de láser [Attitude control study on artificial satellites and space debris using laser data]”, Final degree project for degree in Physics, University of Cantabria, Spain. (URL: https://hdl.handle.net/10902/32336)

Jain R., Speretto S., Dirkx D., Gill E. (2024). “Inter-satellite tracking methods and applications: A comprehensive survey”, Adv. Space Res.,74(8), 3877-3901, doi:10.1016/j.asr.2024.08.022

Kang Z., Bettadpur S., Save H. et al. (2024). “GPS-Based Precise Orbit Determination of LEO Satellites Using Space-Based Double-Differenced Observations”, J Astronaut Sciences, 71, 25, doi: 10.1007/s40295-024-00444-9.

Kang Z., Save H., Ries J., Bettadpur S. (2024). “LEO-based SLR Station Coordinate Determination using GNSS and SLR Data”, IGS Workshop 2024, July 1-5, Bern, Switzerland. (URL: https://files.igs.org/pub/resource/pubs/workshop/2024/IGSWS-2024-PY0218-Kang-LEO-based_SLR_Station_Coordinate_Determination_Using_GNSS_and_SLR_data.pdf). (Oral presentation by Z. Kang: https://www.youtube.com/watch?v=Gd9vSdwEwhM)

Kodet J., Eckl J.J., Schreiber K.U. (2024). “Properties of an optical event timer for satellite laser ranging”, J. Geodesy, 98(8), doi: 10.1007/s00190-024-01876-9

Lecomte H., Rosat S. Mandea M. (2024). “Gap filling between GRACE and GRACE-FO missions: assessment of interpolation techniques”, J. Geodesy, 98(107), doi:10.1007/s00190-024-01917-3

Le Gac D., Achour A., Patois F. et al. (2024). “A new GHz high-speed near-infrared uncooled single photon detector”, A new GHz high-speed near-infrared uncooled single photon detector. ICSO 2024 | International Conference on Space Optics, ESA; CNES, Nov 2024, Antibes (06), France, (URL: https://hal.science/hal-04790551/)

Lejba P. (2024). “Orbit Determination of Chinese rocket bodies from the picosecond full-rate laser measurements”, Artificial Satellites, 58(4), 256–277, doi: 10.2478/arsa-2023-0010.

Lejba P., Michalek P., Suchodolski T. et al. (2024). “Laser Observations of GALILEO Satellites at the CBK PAN Astrogeodynamic Observatory in Borowiec”, Remote Sensing, 16(15), 2862, doi:10.3390/rs16152862

Li H., Zhu T., Lin X. et al. (2024). “Processing method of laser ranging data based on array of superconducting nanowire single photon detector”, Optics and Laser Technology, 181(A), doi: 10.1016/j.optlastec.2024.111741

Li R., Huo Y., Wen D. et al. (2024). “Calibration method of the right-angle error of a hollow corner-cube retroreflector based on an independent autocollimator”, Applied Optics, 63(3), 668–675, doi: 10.1364/AO.510872.

Li X.X., Fu Y.C., Zhang K.K. et al. (2024). “Improving multiple LEO combination for SLR-based geodetic parameters determination using variance component estimation”, J. Geodesy, 98(8), doi: 10.1007/s00190-024-01880-z

Li X.X, Lou J.Q., Yuan Y.Q. et al. (2024). “Determination of global geodetic parameters using satellite laser ranging to Galileo, GLONASS, and BeiDou satellites”, Satellite Navigation, 5(1), doi: 10.1186/s43020-024-00132-x

Li Y., Wang X., Zhang S., Xi K. (2024). “The influence of considering atmospheric wind field for atmospheric drag on SLR orbit determination”, Adv. Space Res., (In press, Apr. 16, 2024), doi: 10.1016/j.asr.2024.04.023.

Loomis B., Rachlin K., Griffin B. (2024). “Updates on TN-14 and SLR Validation”, GRACE/GRACE-FO Science Team Meeting, 8-10 October 2024, GFZ Potsdam, Germany, doi:10.5194/gstm2024-92

Loyer S., Rebischung P., Moreaux G., Banos-Garcia A. (2024). “A GNSS+Sentinel6A joint processing”, IGS Workshop 2024, July 1-5, Bern, Switzerland. (URL: https://files.igs.org/pub/resource/pubs/workshop/2024/IGSWS-2024-PY0217-Loyer-GEOD-ESIS.pdf). (Oral Presentation by S. Loyer: https://www.youtube.com/watch?v=e2EXJ_krl3g)

Lucchesi, David et al. (2024). “Fundamental physics measurements with Galileo FOC satellites and the Galileo for science project. I. A 3D-CAD and a box wing for modeling the effects of nonconservative forces”, PHYSICAL REVIEW D 109, 062004, DOI: 10.1103/PhysRevD.109.062004.

March R., Bertolami O., Muccino M., Dell’Agnello S. (2024). “Equivalence principle violation in nominally coupled gravity and constraints from lunar laser ranging”, Phys. Rev. D., 109(12), doi: 10.1103/PhysRevD.109.124013

Mayer-Gürr T., Dumitraschkewitz P., Krauss S., Öhlinger F., Strasser A., Süsser-Rechberger B., and Tieber-Hubman C. (2024). “GROOPS: The Open-source Software from TU Graz”, GRACE/GRACE-FO Science Team Meeting, Potsdam, Germany, 8–10 Oct 2024, GSTM2024-55, doi:10.5194/gstm2024-55

Modiri S., Thaller D., Belda S. et al. (2024). “EOP Prediction Based on Multi and Single Technique Space Geodetic Solution”, In: International Association of Geodesy Symposia. Springer, Berlin, Heidelberg. doi:10.1007/1345_2024_25

Mozzato M., Bemporad G., Enzo S. et al. (2024). “Concept and Feasibility Analysis of the Alba Cubesat Mission”, Aerotecnica. Missili Spatio, doi: 10.1007/s42496-024-00205-9.

Nie Y.F., Chen J.L., Peng D.J. (2024). “Global Ocean Mass Change Estimation Using Low-Degree Gravity Field From Satellite Laser Ranging”, Geophys. Res. Lett., 51(11), doi: 10.1029/2024GL109717

Nie Y., Shen Y., Chen J., ∓ Chen Q. (2024). “Improved GRACE‐FO gravity field solution by combining different accelerometer transplant products”, J. Geophys. Res: Solid Earth, 129, e2023JB028013, doi:10.1029/2023JB028013.

Otsubo T., Araki H., Yokota Y., Kobayashi M., Kouno K., Matsumoto T., Nakajima J., Kensuke K., & Aoyama Y. (2024). “Low-cost, compact, multi-purpose SLR system, Omni-SLR”, Poster at the 13th IVS General Meeting & 25th Anniversary, Tsukuba, Japan, doi:10.5281/zenodo.10884982.

Pak J.J., Joo J.Y., Lee J.H. et al. (2024). “Evaluating Laser Beam Parameters for Ground-to-space Propagation through Atmospheric Turbulence at the Geochang SLR Observatory”, Current Optics and Photonics, 8(4), 382-390, doi: 10.3807/COPP.2024.8.4.382

Peidou A., Haines B., Bertiger W. et al. (2024). “Realization of Terrestrial Reference Frame at the observation level using space geodetic techniques”, IGS Workshop 2024, July 1-5, Bern, Switerland. (URL: https://files.igs.org/pub/resource/pubs/workshop/2024/IGSWS-2024-PY0220-Peidou-Realization_Of_Terrestrial_Reference_Frame_At_The_Observation_Level_Using_Space_Geodetic_Techniques.pdf

Peron R., Negusini. M. and Tornatore V. (2024). “METRIC: a mission concept for a spacecraft aimed at upper atmosphere mapping, gravitational physics, and geodesy”, Poster at the 13th IVS General Meeting & 25th Anniversary, Tsukuba, Japan, doi: 10.5281/zenodo.10844263.

Rebischung P., Altamimi Z., Collilieux X. et al. (2024). “ITRF2020 seasonal geocenter model”, J. Geodesy, 98(9), doi: 10.1007/s00190-024-01889-4

Rivera, J., Bettadpur, S., Griffin, J. et al. (2024). “Measuring 1-mm-accurate local survey ties over kilometer baselines at McDonald Geodetic Observatory”, J. Geodesy, 98(46), doi:10.1007/s00190-024-01853-2.

Sabhlok S., Battat J.B.R., Colmenares N.R., Gonzales D.P., Murphy T.W. Jr. (2024). “A clear case for dust obscuration of the lunar retroreflectors”, Icarus, 116113, doi: 10.1016/j.icarus.2024.116113.

Saemian P., Tourian M.J., Douch K., Sneeuw N. (2024). “Developing a Long-Term Global Dataset of Water Storage Anomalies Using GRACE and Model-Based Estimations”, GRACE/GRACE-FO Science Team Meeting, Potsdam, Germany, 8–10 Oct 2024, GSTM2024-65, doi:10.5194/gstm2024-65

Salmins K., Kaulins J. (2024). “Characterisation of hybrid photodetector signals for satellite laser raning”, Latvian Journal of Physics and Technical Sciences, 4, 58-66, doi:10.2478/lpts-2024-0027

Sapio, Feliciana et al. (2024). “Fundamental physics measurements with Galileo FOC satellites and the Galileo for science project. II. A box wing for modeling direct solar radiation pressure and preliminaries orbit determinations”, PHYSICAL REVIEW D 109, 062005, DOI: 10.1103/PhysRevD.109.062005.

Sapio, Feliciana (2024). “Fundamental Physics with the Galileo FOC satellites and the G4S_2.0 project”, Ph.D. Thesis, Sapienza, University of Rome, Italy. (URL: https://iris.uniroma1.it/handle/11573/1709293)

Saquet E., Couhert A., Peter H., Arnold D. Mercier F. (2024). “Millimeter accuracy SLR bias determination using independent multi-LEO DORIS and GPS-based precise orbits”, Adv. Space Res., 73(1), 304–316, doi: 10.1016/j.asr.2023.07.014.

Schrama E.J.O. and Visser P.N.A.M. (2024). "Choices for temporal gravity field modeling for precision orbit determination of CryoSat-2", Adv. Space Res., 73(1), 31-41, doi: 10.1016/j.asr.2023.11.034

Seitz M., Bloßfeld M., Glomsda M. et al. (2024). “DTRF2020 extension: GNSS scale and continuity issues”, IGS Workshop 2024, July 1-5, Bern, Switzerland (URL: https://files.igs.org/pub/resource/pubs/workshop/2024/IGSWS-2024-PY0214-Seitz-DTRF2020_Extension.pdf) (Oral presentation by M. Bloßfeld : https://www.youtube.com/watch?v=3_CpAVBrEpU)

Sekido M., Morinaga T., Satomura M., Nakazono J., Ichikawa R., Kunimori H. (2024). “Status report of Koganei 11-m antenna and local tie survey”, Poster at the 13th IVS General Meeting & 25th Anniversary, Tsukuba, Japan, doi: 10.5281/zenodo.10826416.

Sliwinska-Bronowicz J., Kur T., Winska M. et al (2024). “Assessment of length-of-day and universal time predictions based on the results of the Second Earth Orientation Parameters Prediction Comparison Campaign.” J. Geodesy, 98(22), doi:10.1007/s00190-024-01824-7

Sliwinska-Bronowicz J., Nastula J., and Winska M. (2024). “Broadband assessment of polar motion excitation determined from recent gravity field solutions”, GRACE/GRACE-FO Science Team Meeting, Potsdam, Germany, 8–10 Oct 2024, GSTM2024-4, doi:10.5194/gstm2024-4

Sośnica, K. Orbit design for a future geodetic satellite and gravity field recovery (2024). J. Geodesy, 98(77), doi:10.1007/s00190-024-01884-9

Sośnica K., Gałdyn F., Nowak A., et al. (2024). “What are the best inclination angles and satellite heights for recovering geocenter, C20, C30, and other low-degree harmonics?”. GRACE/GRACE-FO Science Team Meeting, Potsdam, Germany, 8–10 Oct 2024, GSTM2024-3, doi:10.5194/gstm2024-3

Steindorfer M.A., Koidl F., Kirchner G. et al. (2024). “Satellite laser ranging to Galileo satellites: symmetry conditions and improved normal point formation strategies,” GPS Solutions, 28(73), doi: 1007/s10291-024-01615-9.

Steurer, Jakob (2024). “Development of a system for airborne object detection to ensure safe operation of laser-optical ground stations”, Masters thesis, Universität Stuttgart, Germany. URL: https://elib.dlr.de/202844/

Steurer J., Bartels, N., Hampf D. et al. (2024). “Algorithm for detecting airborne objects with a thermal infrared camera to ensure a safe operation of laser-optical ground stations”, Applied Optics, 63(24), 6336–6344, doi: 10.1364/AO.529222

Tseng T.P., Tsai Y.H., Hsieh C.S. (2024). "Characterization of Galileo yaw attitude on tidal loading and range bias in SLR-based orbit validation", GPS Solutions, 28, doi:10.1007/s10291-023-01571-w

Turyshev S.G., Shao M., Hahn I. et al. (2024).”Detecting gravitational waves with Lunar Laser Ranging”, Lunar Surface Science Workshop (LSSW) 24: Science Drivers and Capabilities for Lunar Surface Habitat Research Facilities, 20 August 2024. LPI Contribution No. 3065 (Abstract: https://www.hou.usra.edu/meetings/lunarsurface24/pdf/5001.pdf) (Presentation: https://www.hou.usra.edu/meetings/lunarsurface24/eposter/5001.pdf)

Uz M., Akyılmaz O., Shum, C.K. et al. (2024). “High-resolution temporal gravity field data products: Monthly mass grids and spherical harmonics from 1994 to 2021”, Scientific Data, 11(71), doi: 10.1038/s41597-023-02887-5

Vielberg, Kristin (2024). “Thermosphere and radiation effects in forward and inverse non-gravitational force modelling”, Ph.D Dissertation, Rheinische Friedrich-Wilhelms-Universität Bonn, Germany. URL: https://hdl.handle.net/20.500.11811/11288

Waldron Z.C., Garcia-Sage K., Thayer J.P. et al. (2024). “Assessing thermospheric neutral density models using GEODYN's Precision Orbit Determination”, Space Weather, 22(2), e2023SW003603, doi: 10.1029/2023SW00360.

Weigelt M., Jäggi A., Meyer U. (2024). “Bridging the gap between GRACE and GRACE Follow-On by combining high-low satellite-to-satellite tracking data and satellite laser ranging”, J. Geodesy, 98(9), doi: 10.1007/s00190-024-01888-5

Wischnivesky M., Oscar A., Joaquin C.P. (2024). “Microgeodesia, método de intersección en la determinación de los ejes del láser utilizado en AGGO (Observatorio Geodésico Argentino Alemán): [Microgeodesy, intersection method in the determination of the laser axes used in AGGO (German Argentine Geodetic Observatory)], Investigación, Ciencia Universidad, 7(9), 62-73, doi:10.59872/icu.v7i9.429. (URL: http://repositorio.umaza.edu.ar/handle/00261/3327)

Xia F., Zhou S., Chen D. et al. (2024). “Analysis and diagnosis of abnormal SLR validation results for BeiDou-3 SECM-B MEO C225 and C226 satellite orbits”, Adv. Space Res., doi: 10.1016/j.asr.2024.05.004.

Xia F.Y., Zhou S.S., Lin X. et al. (2024). “Precise orbit determination for BeiDou-3 satellite with solar panel non-nominal orientation operations using telemetry information”, GPS Solutions, 28(4), doi: 10.1007/s10291-024-01752-1

Xue H., Zhang Z., Deng S. et al. (2024). “Improved simulated annealing algorithm on the design of satellite orbits for common-view laser time transfer”, Remote Sensing, 16(3), 472, doi: 10.3390/rs16030472.

Zagidullin A.A., Petrova N.K., Nefedyev Y.A., Andreev A.O. (2024). “Building a Model of the Lunar Core Using Laser Ranging Observations of the Moon”, Tecincal Physics, 69(5), doi: 10.1134/S1063784224040480

Zajdel R., Nowak A. & Sośnica K. (2024). “Satellite laser ranging to BeiDou-3 satellites: initial performance and contribution to orbit model improvement”, GPS Solutions, 28(100), doi:10.1007/s10291-024-01638-2

Zeitlhöfler J., Bloßfeld M., Lemoine F.G., Seitz F. (2024). “Quality assessment of the nominal attitude model of TOPEX/Poseidon using quaternion data”, Adv. Space Res., In press (March 18, 2024).

Zelensky N.P., Lemoine F.G., Zeitlhöfler J., Bloßfeld M., Yang X. (2024). “TOPEX/Poseidon spacecraft body and solar array quaternions (Version 01A) [Data set]” Zenodo doi: 10.5281/zenodo.10795818.

Zhang J., Huang C.J., Lian L.Z. et al. (2024). “GNSS, SLR, VLBI, and DORIS Inputs from ITRF2014 to ITRF2020 Using TRF Stacking Methods”, Remote Sensing, 16(7), doi: 10.3390/rs16071240

Zhang K., Li X., Jiang W. et al. (2024). "Geocenter motion derived from multi-LEO precise orbit determination based on GNSS observations and dynamic force models", GPS Solutions, 28(8), doi:10.1007/s10291-023-01546-x

Zhang M., Müller J., Biskupek L. (2024). "Advantages of combining Lunar Laser Ranging and Differential Lunar Laser Ranging", Astronomy & Astrophysics, 681, A5, doi:10.1051/0004-6361/202347643

Zhou, H., Zhang Q., Ma Y. et al. (2024). “Optical parameter design model of hemispherical laser retroreflector arrays for satellite laser ranging”, Optics Express, 32(23), 41230-41243, doi: 10.1364/OE.539811