In atomic physics, a ridged mirror (or ridged atomic mirror, or Fresnel diffraction mirror) is a kind of
atomic mirror In physics, an atomic mirror is a device which reflects neutral atoms in the similar way as a conventional mirror reflects visible light. Atomic mirrors can be made of electric fields or magnetic fields, electromagnetic waves or just silicon waf ...
, designed for the
specular reflection
Specular reflection, or regular reflection, is the mirror-like reflection of waves, such as light, from a surface.
The law of reflection states that a reflected ray of light emerges from the reflecting surface at the same angle to the surf ...
of
neutral particle
In physics, a neutral particle is a particle with no electric charge, such as a neutron.
The term ''neutral particles'' should not be confused with ''truly neutral particles'', the subclass of neutral particles that are also identical to their ow ...
s (
atoms
Every atom is composed of a nucleus and one or more electrons bound to the nucleus. The nucleus is made of one or more protons and a number of neutrons. Only the most common variety of hydrogen has no neutrons.
Every solid, liquid, gas, an ...
) coming at a
grazing
In agriculture, grazing is a method of animal husbandry whereby domestic livestock are allowed outdoors to roam around and consume wild vegetations in order to convert the otherwise indigestible (by human gut) cellulose within grass and other ...
incidence angle. In order to reduce the mean attraction of particles to the surface and increase the reflectivity, this surface has narrow ridges.
Reflectivity of ridged atomic mirrors
Various estimates for the efficiency of
quantum reflection
Quantum reflection is a uniquely quantum phenomenon in which a compact object, such as a neutron or a small molecule, reflects smoothly and in a wavelike fashion from a much larger surface, such as a pool of mercury. In contrast, a classically beha ...
of waves from ridged mirror were discussed in the literature. All the estimates explicitly use the
de Broglie theory about wave properties of reflected atoms.
Scaling of the van der Waals force
The ridges enhance the
quantum reflection
Quantum reflection is a uniquely quantum phenomenon in which a compact object, such as a neutron or a small molecule, reflects smoothly and in a wavelike fashion from a much larger surface, such as a pool of mercury. In contrast, a classically beha ...
from the surface, reducing the effective constant
of the
van der Waals attraction of atoms to the surface. Such interpretation leads to the estimate of the reflectivity
:
,
where
is width of the ridges,
is distance between ridges,
is
grazing angle, and
is wavenumber and
is coefficient of reflection of atoms with wavenumber
from a flat surface at the normal incidence. Such estimate predicts the enhancement of the reflectivity at the increase of period
; this estimate is valid at
. See
quantum reflection
Quantum reflection is a uniquely quantum phenomenon in which a compact object, such as a neutron or a small molecule, reflects smoothly and in a wavelike fashion from a much larger surface, such as a pool of mercury. In contrast, a classically beha ...
for the approximation (fit) of the function
.
Interpretation as Zeno effect
For narrow ridges with large period
, the ridges just blocks the part of the wavefront. Then, it can be interpreted in terms of the
Fresnel diffraction
In optics, the Fresnel diffraction equation for near-field diffraction is an approximation of the Kirchhoff–Fresnel diffraction that can be applied to the propagation of waves in the near field. It is used to calculate the diffraction pattern ...
[
][
] of the
de Broglie wave
Matter waves are a central part of the theory of quantum mechanics, being an example of wave–particle duality. All matter exhibits wave-like behavior. For example, a beam of electrons can be diffracted just like a beam of light or a water wave ...
, or the
Zeno effect
The quantum Zeno effect (also known as the Turing paradox) is a feature of quantum-mechanical systems allowing a particle's time evolution to be slowed down by measuring it frequently enough with respect to some chosen measurement setting.
Som ...
;
[
] such interpretation leads to the estimate the reflectivity
:
,
where the
grazing angle is supposed to be small. This estimate predicts enhancement of the reflectivity at the reduction of period
. This estimate requires that
.
Fundamental limit
For efficient ridged mirrors, both estimates above should predict high reflectivity. This implies reduction of both, width,
of the ridges and the period,
. The width of the ridges cannot be smaller than the size of an atom; this sets the limit of performance of the ridged mirrors.
[
]
Applications of ridged mirrors
Ridged mirrors are not yet commercialized, although certain achievements can be mentioned. The reflectivity of a ridged atomic mirror can be orders of magnitude better than that of a flat surface. The use of a ridged mirror as an atomic
hologram
Holography is a technique that enables a wavefront to be recorded and later re-constructed. Holography is best known as a method of generating real three-dimensional images, but it also has a wide range of other Holography#Applications, applic ...
has been demonstrated.
In Shimizu's and Fujita's work,
[
] atom holography is achieved via electrodes implanted into SiN
4 film over an atomic mirror, or maybe as the atomic mirror itself.
Ridged mirrors can also reflect
visible light
Light or visible light is electromagnetic radiation that can be perceived by the human eye. Visible light is usually defined as having wavelengths in the range of 400–700 nanometres (nm), corresponding to frequencies of 750–420 te ...
;
however, for light waves, the performance is not better than that of a flat surface. An ellipsoidal ridged mirror is proposed as the focusing element for an atomic optical system with submicrometre resolution (
atomic nanoscope
The atomic de Broglie microscope (also atomic nanoscope, neutral beam microscope, or scanning helium microscope when helium is used as the probing atom) is an imaging system which is expected to provide resolution at the nanometer scale. It is som ...
).
See also
*
Atomic mirror In physics, an atomic mirror is a device which reflects neutral atoms in the similar way as a conventional mirror reflects visible light. Atomic mirrors can be made of electric fields or magnetic fields, electromagnetic waves or just silicon waf ...
*
Quantum reflection
Quantum reflection is a uniquely quantum phenomenon in which a compact object, such as a neutron or a small molecule, reflects smoothly and in a wavelike fashion from a much larger surface, such as a pool of mercury. In contrast, a classically beha ...
*
Atomic nanoscope
The atomic de Broglie microscope (also atomic nanoscope, neutral beam microscope, or scanning helium microscope when helium is used as the probing atom) is an imaging system which is expected to provide resolution at the nanometer scale. It is som ...
*
Zeno effect
The quantum Zeno effect (also known as the Turing paradox) is a feature of quantum-mechanical systems allowing a particle's time evolution to be slowed down by measuring it frequently enough with respect to some chosen measurement setting.
Som ...
*
Matter wave
Matter waves are a central part of the theory of quantum mechanics, being an example of wave–particle duality. All matter exhibits wave-like behavior. For example, a beam of electrons can be diffracted just like a beam of light or a water wav ...
References
{{reflist
Atomic, molecular, and optical physics