Figure 4 from NUCLEAR THERMAL ROCKET/VEHICLE CHARACTERISTICS AND SENSITIVITY TRADES FOR NASA's MARS DESIGN REFERENCE ARCHITECTURE (DRA) 5.0 STUDY
![Figure 4 from NUCLEAR THERMAL ROCKET/VEHICLE CHARACTERISTICS AND SENSITIVITY TRADES FOR NASA's MARS DESIGN REFERENCE ARCHITECTURE (DRA) 5.0 STUDY](https://d3i71xaburhd42.cloudfront.net/3c569a875767ea0d34533a6640c95dd73429edda/9-Figure4-1.png)
![](https://www.researchgate.net/profile/Geoffrey-Landis/publication/268565797/figure/fig2/AS:317468091404288@1452701699433/Mars-DRA-50-Architecture-2008_Q320.jpg)
PDF) HERRO Mars: Design Study for a Highly-Robotic Human Mission to Mars
![](https://www.tandfonline.com/cms/asset/4518f67b-f5c2-4863-99d2-13ae74464836/unse_a_2252637_f0011_oc.jpg)
Full article: Preliminary Conceptual Design of Nuclear Thermal Rocket Reactor Cores Using Ceramic Fuels with Beryllium or Composite Neutron Moderators
![](https://d3i71xaburhd42.cloudfront.net/f37cd4d20a9e5bb8b22882a36d703e1dd115db55/31-Figure28-1.png)
PDF] Modular Growth NTR Space Transportation System for Future NASA Human Lunar, NEA and Mars Exploration Missions
![](https://d3i71xaburhd42.cloudfront.net/f5bc681e9fdb74afb3ce025ade6a8e83289b93b4/20-Figure10-1.png)
Figure 1 from The Nuclear Thermal Propulsion Stage (NTPS): A Key Space Asset for Human Exploration and Commercial Missions to the Moon
![](https://www.tandfonline.com/cms/asset/20354bf4-02b7-4601-b1b1-97839cdc414b/unse_a_2252637_f0020_oc.jpg)
Full article: Preliminary Conceptual Design of Nuclear Thermal Rocket Reactor Cores Using Ceramic Fuels with Beryllium or Composite Neutron Moderators
![](https://www.researchgate.net/publication/224130872/figure/fig1/AS:341785709695006@1458499471981/Mars-DRA-50-mission-profile-using-nuclear-thermal-in-space-propulsion.png)
Mars DRA 5.0 mission profile using nuclear thermal in-space propulsion
![](https://d3i71xaburhd42.cloudfront.net/f37cd4d20a9e5bb8b22882a36d703e1dd115db55/29-Figure26-1.png)
PDF] Modular Growth NTR Space Transportation System for Future NASA Human Lunar, NEA and Mars Exploration Missions
![](https://ars.els-cdn.com/content/image/1-s2.0-S0306454917303055-gr19.jpg)
Design of a passive safety system for a nuclear thermal rocket - ScienceDirect
![](https://beyondnerva.files.wordpress.com/2018/05/mtv-copernicus-ncps-config-nasa.png)
LEU NTP Part Three: Spacecraft Overview – Beyond NERVA
![](https://d3i71xaburhd42.cloudfront.net/3c569a875767ea0d34533a6640c95dd73429edda/8-Figure3-1.png)
Figure 4 from NUCLEAR THERMAL ROCKET/VEHICLE CHARACTERISTICS AND SENSITIVITY TRADES FOR NASA's MARS DESIGN REFERENCE ARCHITECTURE (DRA) 5.0 STUDY
![](https://www.researchgate.net/publication/358286386/figure/fig3/AS:1152787211661312@1651857297200/Spacecraft-trajectory-from-Earth-to-Jupiter.jpg)
Spacecraft trajectory from Earth to Jupiter.
![](https://www.researchgate.net/profile/Dean-Wang-2/publication/374501453/figure/fig1/AS:11431281196314367@1696602089408/Schematic-of-the-NERVA-Programs-Small-Nuclear-Rocket-Engine-SNRE-credit-NASA-Glenn_Q320.jpg)
PDF) Research Progress Toward Engineering Feasibility of the Centrifugal Nuclear Thermal Rocket
![](https://i1.rgstatic.net/publication/349379840_Space_Nuclear_Propulsion_for_Human_Mars_Exploration_NASEM_Space_Nuclear_Propulsion_Technologies_Committee_Report_released_02-12-2021_httpsdoiorg101722625977/links/602d6d77299bf1cc26d23471/largepreview.png)
PDF) Space Nuclear Propulsion for Human Mars Exploration, NASEM Space Nuclear Propulsion Technologies Committee Report, released 02-12-2021