Add to ORKGWe investigate the speed at which clusters of invention for a technology migrate spatially following breakthrough inventions. We identify breakthrough inventions as the top one percent of US inventions for a technology during 1975-1984 in terms of subsequent citations. Patenting growth is significantly higher in cities and technologies where breakthrough inventions occur after 1984 relative to peer locations that do not experience breakthrough inventions. This growth differential in turn depends on the mobility of the technology's labor force, which we model through the extent that technologies depend upon immigrant scientists and engineers. Spatial adjustments are faster for technologies that depend heavily on immigrant inventors. The resu...
While networks are widely thought to enhance regional innovative capability, there exist few longitu...
While the positive effects of similar firms locating close to one another – so called agglomeration ...
This paper studies the drivers of highly skilled migrants across space as well as their impact on lo...
We investigate the speed at which clusters of invention for a technology migrate spatially following...
This thesis examines the determinants of the spatial diffusion and adoption of breakthrough technolo...
compare with the rest of the United States? To answer these questions, we analyzed data on patented...
Mobilization of valuable resources, especially of talented individuals, figures prominently in firms...
Using 1975-1992 patent data this article untangles two opposing effects of knowledge spillovers: inc...
Technological change is a powerful force in economic and social life. Technological change is both a...
More than 30 million people migrated to the USA between late-ninetieth and early-twentieth century, ...
We model the invention of new technologies and their diffusion across countries. Our model predicts ...
Towards the end of the previous century, the geography of US inventive activity changed drastically....
In this paper I examine episodes in which superstar inventors relocate to a new city. In particular,...
We study whether and when research and development (R&D) activities by foreign multinationals facili...
While networks are widely thought to enhance regional innovative capability, there exist few longitu...
While the positive effects of similar firms locating close to one another – so called agglomeration ...
This paper studies the drivers of highly skilled migrants across space as well as their impact on lo...
We investigate the speed at which clusters of invention for a technology migrate spatially following...
This thesis examines the determinants of the spatial diffusion and adoption of breakthrough technolo...
compare with the rest of the United States? To answer these questions, we analyzed data on patented...
Mobilization of valuable resources, especially of talented individuals, figures prominently in firms...
Using 1975-1992 patent data this article untangles two opposing effects of knowledge spillovers: inc...
Technological change is a powerful force in economic and social life. Technological change is both a...
More than 30 million people migrated to the USA between late-ninetieth and early-twentieth century, ...
We model the invention of new technologies and their diffusion across countries. Our model predicts ...
Towards the end of the previous century, the geography of US inventive activity changed drastically....
In this paper I examine episodes in which superstar inventors relocate to a new city. In particular,...
We study whether and when research and development (R&D) activities by foreign multinationals facili...
While networks are widely thought to enhance regional innovative capability, there exist few longitu...
While the positive effects of similar firms locating close to one another – so called agglomeration ...
This paper studies the drivers of highly skilled migrants across space as well as their impact on lo...