International audienceThe rotational Doppler shift is the counterpart of the usual linear Doppler effect for rotating bodies. We study by an experimental approach coupled with theoretical considerations the rotational shift of a fundamental laser light reflected on an ideal rotating propeller. We decompose the reflected light on a Laguerre–Gaussian basis and show that only modes having the same rotational symmetry as the propeller are involved in the decomposition. The latter experience a frequency shift proportional to the rotation frequency of the propeller and the topological charge of the beam. Extensions of this work in the microwave domain are then considered
Two simple and related experiments are outlined that allow the student to investigate the frequency ...
The linear Doppler shift is familiar as the rise and fall in pitch of a siren as it passes by. Less ...
We demonstrate an experimental scheme that allows the elucidation of the orbital angular momentum di...
International audienceThe rotational Doppler shift is the counterpart of the usual linear Doppler ef...
International audienceWe investigate both theoretically and experimentally the decomposition of a fu...
International audienceThis Letter reports on a rotational Doppler effect obtained from a rotating ro...
International audienceThis Letter reports the observation of a rotational Doppler shift on reflected...
The well-known linear Doppler effect arises from the linear motion between source and observer, whil...
It is well established that light carrying orbital angular momentum (OAM) can be used to induce a me...
International audienceThe light from a twisted laser beam, scattered at an air/water interface, expe...
The linear Doppler effect has been widely used to detect the translational motion of objects. Howeve...
We observe the frequency shift, l Omega, imparted to a mm-wave beam with an orbital angular momentum...
The linear Doppler shift is familiar as the rise and fall in pitch of a siren as it passes by. Less ...
The Doppler frequency shift of sound or electromagnetic waves has been widely investigated in many d...
The linear Doppler shift is widely used to infer the velocity of approaching objects, but this shift...
Two simple and related experiments are outlined that allow the student to investigate the frequency ...
The linear Doppler shift is familiar as the rise and fall in pitch of a siren as it passes by. Less ...
We demonstrate an experimental scheme that allows the elucidation of the orbital angular momentum di...
International audienceThe rotational Doppler shift is the counterpart of the usual linear Doppler ef...
International audienceWe investigate both theoretically and experimentally the decomposition of a fu...
International audienceThis Letter reports on a rotational Doppler effect obtained from a rotating ro...
International audienceThis Letter reports the observation of a rotational Doppler shift on reflected...
The well-known linear Doppler effect arises from the linear motion between source and observer, whil...
It is well established that light carrying orbital angular momentum (OAM) can be used to induce a me...
International audienceThe light from a twisted laser beam, scattered at an air/water interface, expe...
The linear Doppler effect has been widely used to detect the translational motion of objects. Howeve...
We observe the frequency shift, l Omega, imparted to a mm-wave beam with an orbital angular momentum...
The linear Doppler shift is familiar as the rise and fall in pitch of a siren as it passes by. Less ...
The Doppler frequency shift of sound or electromagnetic waves has been widely investigated in many d...
The linear Doppler shift is widely used to infer the velocity of approaching objects, but this shift...
Two simple and related experiments are outlined that allow the student to investigate the frequency ...
The linear Doppler shift is familiar as the rise and fall in pitch of a siren as it passes by. Less ...
We demonstrate an experimental scheme that allows the elucidation of the orbital angular momentum di...