Publication details
Publisher: Springer
Place: Berlin
Year: 2009
Pages: 341-361
Series: Lecture Notes in Physics
ISBN (Hardback): 9783642031731
Full citation:
, "Optimal time evolution for hermitian and non-hermitian Hamiltonians", in: Time in quantum mechanics II, Berlin, Springer, 2009
Optimal time evolution for hermitian and non-hermitian Hamiltonians
pp. 341-361
in: Gonzalo Muga, Andreas Ruschhaupt, Adolfo del Campo (eds), Time in quantum mechanics II, Berlin, Springer, 2009Abstract
Interest in optimal time evolution dates back to the end of the seventeenth century, when the famous brachistochrone problem was solved almost simultaneously by Newton, Leibniz, l"Hôpital, and Jacob and Johann Bernoulli. The word brachistochrone is derived from Greek and means shortest time (of flight). The classical brachistochrone problem is stated as follows: A bead slides down a frictionless wire from point A to point B in a homogeneous gravitational field. What is the shape of the wire that minimizes the time of flight of the bead? The solution to this problem is that the optimal (fastest) time evolution is achieved when the wire takes the shape of a cycloid, which is the curve that is traced out by a point on a wheel that is rollingon flat ground.
Cited authors
Publication details
Publisher: Springer
Place: Berlin
Year: 2009
Pages: 341-361
Series: Lecture Notes in Physics
ISBN (Hardback): 9783642031731
Full citation:
, "Optimal time evolution for hermitian and non-hermitian Hamiltonians", in: Time in quantum mechanics II, Berlin, Springer, 2009