- Source: Light dressed state
In the fields of atomic, molecular, and optical science, the term light dressed state refers to a quantum state of an atomic or molecular system interacting with a laser light
in terms of the Floquet picture, i.e. roughly like an atom or a molecule plus a photon. The Floquet picture is based on the Floquet theorem in differential equations with periodic coefficients.
Mathematical formulation
The Hamiltonian of a system of charged particles interacting with a laser light can be expressed as
where
A
{\displaystyle \mathbf {A} }
is the vector potential of the electromagnetic field of the laser;
A
{\displaystyle \mathbf {A} }
is periodic in time as
A
(
t
+
T
)
=
A
(
t
)
{\displaystyle \mathbf {A} (t+T)=\mathbf {A} (t)}
.
The position and momentum of the
i
{\displaystyle i\,}
-th
particle are denoted as
r
i
{\displaystyle \mathbf {r} _{i}\,}
and
p
i
{\displaystyle \mathbf {p} _{i}\,}
, respectively,
while its mass and charge are symbolized as
m
i
{\displaystyle m_{i}\,}
and
z
i
{\displaystyle z_{i}\,}
, respectively.
c
{\displaystyle c\,}
is the speed of light.
By virtue of this time-periodicity of the laser field, the total Hamiltonian is also
periodic in time as
H
(
t
+
T
)
=
H
(
t
)
.
{\displaystyle H(t+T)=H(t)\,.}
The Floquet theorem guarantees that any solution
ψ
(
{
r
i
}
,
t
)
{\displaystyle \psi (\{\mathbf {r} _{i}\},t)}
of the
Schrödinger equation with this type of Hamiltonian,
i
ℏ
∂
∂
t
ψ
(
{
r
i
}
,
t
)
=
H
(
t
)
ψ
(
{
r
i
}
,
t
)
{\displaystyle i\hbar {\frac {\partial }{\partial t}}\psi (\{\mathbf {r} _{i}\},t)=H(t)\psi (\{\mathbf {r} _{i}\},t)}
can be expressed in the form
ψ
(
{
r
i
}
,
t
)
=
exp
[
−
i
E
t
/
ℏ
]
ϕ
(
{
r
i
}
,
t
)
{\displaystyle \psi (\{\mathbf {r} _{i}\},t)=\exp[-iEt/\hbar ]\phi (\{\mathbf {r} _{i}\},t)}
where
ϕ
{\displaystyle \phi \,}
has the same time-periodicity as the Hamiltonian,
ϕ
(
{
r
i
}
,
t
+
T
)
=
ϕ
(
{
r
i
}
,
t
)
.
{\displaystyle \phi (\{\mathbf {r} _{i}\},t+T)=\phi (\{\mathbf {r} _{i}\},t).}
Therefore, this part can be expanded in a Fourier series, obtaining
where
ω
(
=
2
π
/
T
)
{\displaystyle \omega (=2\pi /T)\,}
is the frequency of the laser field.
This expression (2) reveals that a quantum state of the system governed by the Hamiltonian (1)
can be specified by a real number
E
{\displaystyle E\,}
and an integer
n
{\displaystyle n\,}
.
The integer
n
{\displaystyle n\,}
in eq. (2) can be regarded as the number of photons
absorbed from (or emitted to) the laser field.
In order to prove this statement, we clarify the correspondence between the solution (2),
which is derived from the classical expression of the electromagnetic field where there
is no concept of photons, and one which is derived from a quantized electromagnetic field (see quantum field theory).
(It can be verified that
n
{\displaystyle n\,}
is equal to the expectation value of the absorbed photon number
at the limit of
n
≪
N
{\displaystyle n\ll N\,}
, where
N
{\displaystyle N\,}
is the initial number of total photons.)
References
Shirley, Jon H. (1965). "Solution of the Schrödinger Equation with a Hamiltonian Periodic in Time". Physical Review. 138 (4B): B979–B987. Bibcode:1965PhRv..138..979S. doi:10.1103/PhysRev.138.B979. ISSN 0031-899X.
Sambe, Hideo (1973). "Steady States and Quasienergies of a Quantum-Mechanical System in an Oscillating Field". Physical Review A. 7 (6): 2203–2213. Bibcode:1973PhRvA...7.2203S. doi:10.1103/PhysRevA.7.2203. ISSN 0556-2791.
Guérin, S; Monti, F; Dupont, J-M; Jauslin, H R (1997). "On the relation between cavity-dressed states, Floquet states, RWA and semiclassical models". Journal of Physics A: Mathematical and General. 30 (20): 7193–7215. Bibcode:1997JPhA...30.7193G. doi:10.1088/0305-4470/30/20/020. ISSN 0305-4470.
Cardoso, G.C.; Tabosa, J.W.R. (2000). "Four-wave mixing in dressed cold cesium atoms". Optics Communications. 185 (4–6): 353–358. Bibcode:2000OptCo.185..353C. doi:10.1016/S0030-4018(00)01033-6. ISSN 0030-4018.
Guérin, S.; Jauslin, H. R. (2003). "Control of Quantum Dynamics by Laser Pulses: Adiabatic Floquet Theory". Advances in Chemical Physics. pp. 147–267. doi:10.1002/0471428027.ch3. ISBN 9780471214526. ISSN 1934-4791.
F.H.M. Faisal, Theory of Multiphoton Processes, Plenum (New York) 1987 ISBN 0-306-42317-0.
See also
Quantum optics
Hamiltonian (quantum mechanics)
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