Factor substitution and economic growth in a Romer-type model with monopolistic competition
研究了简化罗默型模型中要素替代弹性与稳态人均产出的关系,发现当存在内部稳态时,较高的劳动与中间品复合替代弹性反而降低人均产出,与无限期界增长模型结论相反。
This paper studies the relationship between the elasticity of factor substitution (EOS) and steady-state values in a simplified Romer-type model with an expanding variety of products. Final goods production uses a nested CES technology, allowing substitution both among intermediate goods and between a composite intermediate good and labor. Consumption is a fixed fraction of output, and the cost of new intermediate production is constant and exogenous. The existence of an interior steady state requires an EOS between labor and the composite intermediate good above one, and an EOS among intermediates that exceeds the output–consumption ratio. Under these conditions, for a developing economy with an increasing variety of products, a higher EOS between labor and the intermediate composite good results in lower per capita output. This finding contrasts with results from infinite-horizon growth models, where a higher capital–labor EOS tends to boost per capita income (or the long-run growth rate) if baseline capital per capita is below its steady-state level. If the EOS between labor and the intermediate composite good is below unity and income per capita converges asymptotically to a constant as the number of intermediates continues to grow without bound, the usual positive relationship between the EOS and income per capita reappears. • We study the effect of factor substitution on long-run equilibrium in the Romer model. • If there is an interior steady state, the higher EOS the lower income per capita. • This result contrasts with outcomes in infinite-horizon growth models. • With an ever increasing product variety, the higher EOS the higher income per capita.