Nome |
# |
Power Bus Management Techniques for Space Missions in Low Earth Orbit, file e383532d-d8ca-15e8-e053-a505fe0a3de9
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204
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Astrobio cubesat: A nanosatellite for astrobiology experiments in space, file e383532c-b19c-15e8-e053-a505fe0a3de9
|
152
|
Characterization of 205 and 206 copper alloys for space and ground applications, file ba3da136-ef6f-4be2-97bd-2ebd7723f258
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150
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LARES a new satellite specifically designed for testing general relativity, file e3835312-6cf9-15e8-e053-a505fe0a3de9
|
138
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Study of the fracture behavior of a CuCrZr alloy, file e3835327-a333-15e8-e053-a505fe0a3de9
|
124
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Test of FBG sensors for monitoring high pressure pipes, file e3835316-c513-15e8-e053-a505fe0a3de9
|
109
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The LARES mission: an opportunity to teach general relativity. Frame dragging and Lense-Thirring effect, file e3835312-846a-15e8-e053-a505fe0a3de9
|
108
|
Reply to “A comment on “A test of general relativity using the LARES and LAGEOS satellites and a GRACE Earth gravity model, by I. Ciufolini et al.””, file e3835320-b525-15e8-e053-a505fe0a3de9
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98
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LARES-lab: a thermovacuum facility for research and e-learning. Tests of LARES satellite components and small payloads for e-learning, file e383531b-b561-15e8-e053-a505fe0a3de9
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97
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Measuring the velocity of elementary particles. Fundamental physics in schools by remote learning, file e3835317-205b-15e8-e053-a505fe0a3de9
|
90
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Close Approaches of Debris to LARES Satellite During Its First Four Years of Operation, file e383531a-2919-15e8-e053-a505fe0a3de9
|
84
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An improved test of the general relativistic effect of frame-dragging using the LARES and LAGEOS satellites, file e3835323-86f9-15e8-e053-a505fe0a3de9
|
84
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Monitoring systems for pipeline safety based on FBG sensors, file e383531e-80ac-15e8-e053-a505fe0a3de9
|
83
|
Railway overhead contact wire monitoring system by means of fbg sensors, file e383532c-f7cc-15e8-e053-a505fe0a3de9
|
81
|
A test of general relativity using the LARES and LAGEOS satellites and a GRACE Earth gravity model: Measurement of Earth’s dragging of inertial frames, file e3835317-56cc-15e8-e053-a505fe0a3de9
|
50
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Haynes 242 alloy for lares 2 satellite, file e383532c-2883-15e8-e053-a505fe0a3de9
|
50
|
Combined effects of solar radiation and high vacuum on the properties of graphene/polysiloxane nanocomposites in simulated space environment, file 95f92ca0-7185-4f24-a495-9bb8042cd32e
|
27
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null, file dfed5151-4a7d-48c3-b360-543be3ff3e2c
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18
|
First results of the LARES 2 space experiment to test the general theory of relativity, file 83efaf9a-9c1a-4003-b113-b95f2165158a
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12
|
Experimental study of solar radiation effects on carbon nanocomposite sensors in simulated space environment, file e383531c-c60f-15e8-e053-a505fe0a3de9
|
12
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The LARES 2 satellite, general relativity and fundamental physics, file af12fde9-f649-4955-85c1-9128b26b035a
|
9
|
The impact of El Nino on Earth rotation from LAGEOS and LARES SLR observations, file e3835320-bf1f-15e8-e053-a505fe0a3de9
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8
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On the Electrical Power System of the ASTROBIO CubeSat, file 3d349136-1599-4b69-86f1-7aee1cfafb91
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7
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Recent results from the LARES mission on testing general relativity, file e3835317-5252-15e8-e053-a505fe0a3de9
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7
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Studies on the materials of LARES 2 satellite, file e3835323-c846-15e8-e053-a505fe0a3de9
|
7
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Tests of lares cube corner reflectors in simulated space environment (preliminary results), file e3835312-0701-15e8-e053-a505fe0a3de9
|
6
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Engineering challenges of LARES satellite, designed to test the dynamics of general relativity, file e3835312-89f7-15e8-e053-a505fe0a3de9
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6
|
Thermo-mechanical characterization of a carbon micro-fibre reinforced polymer for additive manufacturing in space applications, file e3835316-c63b-15e8-e053-a505fe0a3de9
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6
|
Tests of Sapphire optical fiber sensors for strain monitoring in high temperature environment, file e3835316-f1cc-15e8-e053-a505fe0a3de9
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6
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Vibration tests of a cube corner reflector assembly of LARES2 satellite, file e3835328-451f-15e8-e053-a505fe0a3de9
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6
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LARES 2 is in Orbit: a New Laser Ranging Target for Fundamental Physics and Earth Science, file 473d05b3-ae0b-4529-bd0c-5512bf088cb9
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5
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Initial orbit determination results for the LARES satellite, file e3835311-e85d-15e8-e053-a505fe0a3de9
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5
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Overview of the LARES Mission: orbit, error analysis and technological aspects., file e3835312-22c2-15e8-e053-a505fe0a3de9
|
5
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LARES hold-down release system. Qualification test campaign., file e3835313-bba6-15e8-e053-a505fe0a3de9
|
5
|
Fabrication and characterization of layered UHMWPE coatings on aerospace-grade epoxy resin for space radiation shielding, file e383532c-23f1-15e8-e053-a505fe0a3de9
|
5
|
Preliminary orbital analysis of the LARES space experiment, file e3835313-2058-15e8-e053-a505fe0a3de9
|
4
|
The contribution of LARES to global climate change studies with geodetic satellites, file e3835313-2fde-15e8-e053-a505fe0a3de9
|
4
|
Monitoring global climate change using SLR data from LARES and other geodetic satellites, file e3835316-f9cc-15e8-e053-a505fe0a3de9
|
4
|
Vibration tests on the preloaded LARES satellite and separation system, file e3835317-6997-15e8-e053-a505fe0a3de9
|
4
|
Earth rotation: an example to teach rigid body motion and environmental monitoring - a fallout of the exploitation of LARES satellite data, file e3835317-74a3-15e8-e053-a505fe0a3de9
|
4
|
The compact muon solenoid RPC barrel detector, file e3835317-8d7e-15e8-e053-a505fe0a3de9
|
4
|
A new laser-ranged satellite for General Relativity and space geodesy: II. Monte Carlo simulations and covariance analyses of the LARES 2 experiment, file e383531a-1879-15e8-e053-a505fe0a3de9
|
4
|
El Niño effects on earth rotation parameters from LAGEOS and LARES orbital analysis, file e383531a-7e77-15e8-e053-a505fe0a3de9
|
4
|
Polyethylene-based nanocomposites for radiation shielding: modelling in radiative environment and laboratory tests in thermo-vacuum chamber, file e383531c-b99d-15e8-e053-a505fe0a3de9
|
4
|
Development and analysis of a new alloy candidate for LARES 2 satellite, file e3835320-bf0f-15e8-e053-a505fe0a3de9
|
4
|
LARES mission: engineering aspects, file e3835312-d762-15e8-e053-a505fe0a3de9
|
3
|
Use of LARES satellite data for Earth science, file e3835313-301d-15e8-e053-a505fe0a3de9
|
3
|
Temperature monitoring of thermal-vacuum tests with optical fiber sensors. Preliminary results, file e3835313-467b-15e8-e053-a505fe0a3de9
|
3
|
Analysis of FBG sensors data for pipeline monitoring, file e3835316-b06e-15e8-e053-a505fe0a3de9
|
3
|
Thermovacuum tests on TIGRIsat structure: validation of the thermal model of a 3U cubesat, file e3835317-471b-15e8-e053-a505fe0a3de9
|
3
|
Tests of LARES and CHAMP cube corner reflectors in simulated space environment, file e3835317-47ee-15e8-e053-a505fe0a3de9
|
3
|
FBG optical sensors for environmental tests of microsatellites, file e3835317-6a19-15e8-e053-a505fe0a3de9
|
3
|
Upgrade of the LARES-lab remote controllable thermo-vacuum facility - lab improvements for remote testing and e-learning, file e3835317-72dc-15e8-e053-a505fe0a3de9
|
3
|
Optimization of FBG sensor sensitivity for disaster prevention in pipelines, file e3835320-1c03-15e8-e053-a505fe0a3de9
|
3
|
The LARES 2 satellite: new challenges for design and ground test, file e3835320-bf0d-15e8-e053-a505fe0a3de9
|
3
|
NUOVO SATELLITE SFERICO CON RETRORIFLETTORI PER FISICA FONDAMENTALE E SCIENZE DELLA TERRA, file e3835328-0448-15e8-e053-a505fe0a3de9
|
3
|
Holographic interferometry for measuring displacements of LARES 2 satellite components, file e3835328-32d4-15e8-e053-a505fe0a3de9
|
3
|
On the statistics of the orbital residuals of the LAGEOS satellites, file e3835312-8347-15e8-e053-a505fe0a3de9
|
2
|
Structural health monitoring of pipelines for environment pollution mitigation, file e3835313-2f69-15e8-e053-a505fe0a3de9
|
2
|
Thermal deformation on a laser retro-reflector of LARES satellite: error analysis, file e3835313-3daf-15e8-e053-a505fe0a3de9
|
2
|
Optical payload for high-resolution earth imaging suitable for microsatellites, file e3835313-4a27-15e8-e053-a505fe0a3de9
|
2
|
IAC-15-B4.4.8 Earth observation with tigrisat: Structural and mission design, file e3835313-4a4b-15e8-e053-a505fe0a3de9
|
2
|
The TIGRIsat camera. A nanosatellite optical payload for detecting dust and sand storms., file e3835313-5479-15e8-e053-a505fe0a3de9
|
2
|
The Constellation of LARES and LAGEOS Satellites for Testing General Relativity, file e3835317-391f-15e8-e053-a505fe0a3de9
|
2
|
A remotely controllable thermo-vacuum facility for testing small payloads, file e3835317-56cd-15e8-e053-a505fe0a3de9
|
2
|
LARES-LAB: a facility for environmental testing of satellite components and micro-satellites, file e3835317-6013-15e8-e053-a505fe0a3de9
|
2
|
LARES satellite thermal forces and a test of general relativity, file e3835317-6015-15e8-e053-a505fe0a3de9
|
2
|
Data efficiency for the satellite LARES, file e383531a-31da-15e8-e053-a505fe0a3de9
|
2
|
A new laser-ranged satellite for General Relativity and space geodesy: IV. Thermal drag and the LARES 2 space experiment, file e3835320-bf15-15e8-e053-a505fe0a3de9
|
2
|
null, file e3835327-b4d3-15e8-e053-a505fe0a3de9
|
2
|
Tests of general relativity with the LARES satellites, file e3835328-16ab-15e8-e053-a505fe0a3de9
|
2
|
A new laser-ranged satellite for General Relativity and space geodesy: I. An introduction to the LARES2 space experiment, file e383532b-0689-15e8-e053-a505fe0a3de9
|
2
|
LARES 2 messo in orbita dal VEGA C, file 604ab834-85ce-47ac-85cd-e4abb2a34843
|
1
|
LARES 2 mission in orbit: first laser ranging after the launch, file e212b4f8-93cb-4d7f-af8e-fb45b66c7f22
|
1
|
Fibre optic sensors for the validation of the numerical simulation on the breadboard of the LARES separation system, file e3835311-b970-15e8-e053-a505fe0a3de9
|
1
|
TESTING THE LARES SEPARATION SYSTEM BREADBOARDS, file e3835311-d995-15e8-e053-a505fe0a3de9
|
1
|
Thermal tests on LARES satellite components., file e3835311-e298-15e8-e053-a505fe0a3de9
|
1
|
Qualification tests on the optical retro-reflectors of LARES satellite., file e3835311-e861-15e8-e053-a505fe0a3de9
|
1
|
LARES, laser relativity satellite, file e3835312-5490-15e8-e053-a505fe0a3de9
|
1
|
Quality assessment of LARES satellite ranging data, file e3835312-8386-15e8-e053-a505fe0a3de9
|
1
|
Orbital predictions for the LARES satellite mission, file e3835312-83c3-15e8-e053-a505fe0a3de9
|
1
|
Use of FBG sensors for health monitoring of pipelines, file e3835316-c397-15e8-e053-a505fe0a3de9
|
1
|
Tests of sapphire optical fiber sensors for strain monitoring in high temperature environment, file e3835317-0105-15e8-e053-a505fe0a3de9
|
1
|
Space debris population on the lares satellite orbit, file e3835317-1a7f-15e8-e053-a505fe0a3de9
|
1
|
Operation and data analysis of LARES satellite, file e3835317-391d-15e8-e053-a505fe0a3de9
|
1
|
Improvement in the measurement of frame-dragging with a future LARES 2 mission, file e3835317-3ccb-15e8-e053-a505fe0a3de9
|
1
|
Space debris close approach to LARES satellite, file e3835317-7b2b-15e8-e053-a505fe0a3de9
|
1
|
A remote controllable thermovacuum facility for CubeSats and small payloads, file e3835317-86a8-15e8-e053-a505fe0a3de9
|
1
|
Contribution of radar meteor scatter technology to NEO and ozone layer monitoring, file e383531a-26f3-15e8-e053-a505fe0a3de9
|
1
|
Assessment of a low-cost multilayer insulation system for thermal control of nanosatellites, file e3835320-8b3f-15e8-e053-a505fe0a3de9
|
1
|
Preliminary results of LARES mission to test general relativity, file e3835320-b129-15e8-e053-a505fe0a3de9
|
1
|
A proposal for a nanosatellite for cosmic ray detection, file e3835320-e83d-15e8-e053-a505fe0a3de9
|
1
|
Progetto innovativo di un satellite inseguito via laser, file e3835328-a47d-15e8-e053-a505fe0a3de9
|
1
|
LARES 2: status of the mission, file e383532b-fc62-15e8-e053-a505fe0a3de9
|
1
|
Comparison of optical quality of some passive laser ranged satellites, file e383532c-1486-15e8-e053-a505fe0a3de9
|
1
|
Stecco, a laser ranged nanosatellite, file e383532c-c788-15e8-e053-a505fe0a3de9
|
1
|
Status of the LARES and LARES 2 space experiments, file e383532f-0ca8-15e8-e053-a505fe0a3de9
|
1
|
LARES 2 messo in orbita dal VEGA C, file f3c8a104-ccac-46fc-b1c8-a62494bccf3a
|
1
|
Totale |
1.996 |