Add to ORKGHigh-power lasers offer a unique potential for debris collision avoidance and orbit lowering for removal purposes within the debris mitigation scenario. Photon pressure and surface ablation are explored as suitable mechanisms to remotely apply the required velocity increment to debris targets. The appropriate regime of laser intensity and fluence, respectively, is discussed in terms of technical maturity and laser safety. Laser power beaming from ground to space is analysed considering atmospheric constraints like aerosol attenuation, cloud cover and turbulence including possibilities and limitations of technical counter-measures. Operational risks comprise uncertainties in momentum transfer as well as thermo-mechanical side effects highlig...
Mitigating space debris with lasers is investigated as a possible mechanism for contactless space de...
We present an update on our research on collision avoidance using photon-pressure induced by ground-...
Reducing space debris hazards is necessary to stabilise the space environment and control the growth...
Accelerated deterioration of ecosystems naturally expands situational awareness from sustainability ...
The increasing amount of space debris in the low Earth orbit (LEO) constitutes a significant threat ...
Walking along a beach one may notice debris being washed ashore from the vast oceans. Then, turning ...
Small (<10cm) debris fragments present a significant threat to all operational satellites in orbit. ...
We analyze the conceptual idea whether already a single high energy laser pulse, emitted from a lase...
The concept of space debris removal from the low Earth orbit (LEO) by laser-ablative recoil is analy...
Since the first spacecraft was launched in 1957 a great number of spacecraft have been put into orbi...
There is a large amount of space debris in the size range of 1 to 10 cm that is orbiting the Earth a...
The fragmentation in Earth orbits and the major collision events between large spacecraft systems in...
Due to the increasing amount of space debris, several laser‐based concepts for orbit modification ha...
AbstractHigh-energy pulsed laser radiation may be the most feasible means to mitigate the threat of ...
The potential to perturb debris orbits using photon pressure from ground-based lasers has been confi...
Mitigating space debris with lasers is investigated as a possible mechanism for contactless space de...
We present an update on our research on collision avoidance using photon-pressure induced by ground-...
Reducing space debris hazards is necessary to stabilise the space environment and control the growth...
Accelerated deterioration of ecosystems naturally expands situational awareness from sustainability ...
The increasing amount of space debris in the low Earth orbit (LEO) constitutes a significant threat ...
Walking along a beach one may notice debris being washed ashore from the vast oceans. Then, turning ...
Small (<10cm) debris fragments present a significant threat to all operational satellites in orbit. ...
We analyze the conceptual idea whether already a single high energy laser pulse, emitted from a lase...
The concept of space debris removal from the low Earth orbit (LEO) by laser-ablative recoil is analy...
Since the first spacecraft was launched in 1957 a great number of spacecraft have been put into orbi...
There is a large amount of space debris in the size range of 1 to 10 cm that is orbiting the Earth a...
The fragmentation in Earth orbits and the major collision events between large spacecraft systems in...
Due to the increasing amount of space debris, several laser‐based concepts for orbit modification ha...
AbstractHigh-energy pulsed laser radiation may be the most feasible means to mitigate the threat of ...
The potential to perturb debris orbits using photon pressure from ground-based lasers has been confi...
Mitigating space debris with lasers is investigated as a possible mechanism for contactless space de...
We present an update on our research on collision avoidance using photon-pressure induced by ground-...
Reducing space debris hazards is necessary to stabilise the space environment and control the growth...