Alcuin and the 'New Athens'
Charlemagne may have been the first Holy Roman Emperor but what did he do to dispel the 'Dark Ages'? Mary Alberi looks at the work of his leading court intellectual, Alcuin, and how his hopes for a 'New Athens' in the Aachen palace school promoted the Carolingian Renaissance.
Charlemagne, king of the Franks (768-814), united most of western Europe under his authority during his long reign. His large and diverse kingdom – 'Francia' in Latin – was inhabited by different Germanic tribes and the remaining Latin-speaking population of the defunct Roman Empire. Religion was one of the main sources of unity within his kingdom, since all of his territories were either Christian to begin with, or were converted to Christianity after being conquered. As this meant that Charlemagne relied extensively on the Church to help him govern and to provide ideological justification for his power, it was in his interest to protect the Church and foster its well-being. One of his lasting achievements was ecclesiastical reform, which strengthened the Church's hierarchy and promoted the foundation of schools in cathedrals and monasteries throughout Francia. Reform, and his conquest of the Lombard kingdom in northern Italy in 772, brought Charlemagne into close association with the papacy. This alliance resulted in Pope Leo III's crowning Charlemagne emperor in Rome on December 25th, 800.
This article is available to History Today online subscribers only. If you are a subscriber, please log in.
Please choose one of these options to access this article:
- Purchase an online subscription
- Purchase a print and online subscription
- If you are already a print subscriber, purchase the online archive upgrade
Call our Subscriptions department on +44 (0)20 3219 7813 for more information.
If you are logged in but still cannot access the article, please contact us
- Middle East
- North America
- South America
- Central America
- Early Modern
- 20th Century
- 21st Century
- Economic History
- Environmental History
- Historical Memory
- Science & Technology