The Cost of Space Launch Is Plummeting—And Could Drop Even Further by 2040
Since the dawn of the Space Age, the expense of sending mass into orbit has been a daunting barrier. In 1960, launching a single kilogram into orbit cost a staggering $87,000. Recent research now reveals that this figure has fallen dramatically, averaging less than $4,000 per kilogram today. More astonishingly, by 2040, this cost could shrink to a mere $300 per kilogram, thanks to rapid technological advancements and increasing operational experience.
A new study published in PNAS Nexus by Alessio Terzi and Francesco Nicoli offers an unprecedented analysis of over 4,400 orbital launches spanning six decades and multiple spacefaring nations. Their comprehensive dataset standardizes cost metrics to reveal a clear “experience curve” in space launch technology akin to learning curves observed in other high-tech sectors. For every doubling in cumulative payload sent into orbit, the cost per kilogram declines by approximately 21.2%, mirroring early-stage solar panel cost reductions.
This steep rate of cost reduction has profound implications for the future of space exploration and commercialization. If these trends continue, average launch costs could fall to around $1,600 per kilogram by 2030—bringing routine, economically viable access to Earth’s orbit within closer reach. The game changer in this trajectory could be SpaceX’s Starship. By leveraging full reusability and high flight cadence, Starship aims to push the cost per kilogram below the $1,000 threshold, potentially disrupting the entire launch market.
Nonetheless, realizing these reductions hinges on scaling up launch frequency significantly, something not without challenges. The study also highlights three critical factors that may slow or even reverse cost declines. The growing challenge of space debris increases risks and operational costs, complicating safe orbital access. Geopolitical fragmentation could fragment markets, with nations opting for independent launch capacities that reduce economies of scale. Additionally, heavy reliance on a single commercial western provider may introduce vulnerabilities to market disruption or policy changes.
Despite these headwinds, the trajectory toward cheaper orbital access appears robust and suggests an exciting era ahead for space-based industries. Lower launch costs could accelerate satellite deployment, space tourism, in-orbit services, and even lunar and Martian colonization efforts. This “learning curve” insight underscores the power of cumulative experience and innovation in driving down costs in one of humanity’s most complex and capital-intensive endeavors.
As launch providers refine reusable technologies and economies of scale grow, spaceflight may soon transform from an extraordinary technical feat into routine infrastructure. The era when orbiting a kilogram costs barely hundreds of dollars is on the horizon, fundamentally reshaping our relationship with space.
Subject of Research:
Article Title: From Sputnik to Starship: Estimating the experience curve of space launch technology
News Publication Date: 14-Jul-2026
Image Credits: Alessio Terzi
Keywords:
Space launch costs, technological learning curve, reusable rockets, SpaceX Starship, orbital payload economics, space debris, satellite deployment, space commercialization

