The linear Doppler shift is widely used to infer the velocity of approaching objects, but this shift does not detect rotation. By analyzing the orbital angular momentum of the light scattered from a spinning object, we observed a frequency shift proportional to product of the rotation frequency of the object and the orbital angular momentum of the light. This rotational frequency shift was still present when the angular momentum vector was parallel to the observation direction. The multiplicative enhancement of the frequency shift may have applications for the remote detection of rotating bodies in both terrestrial and astronomical settings
We observe the frequency shift, l Omega, imparted to a mm-wave beam with an orbital angular momentum...
By making use of the spin angular momentum of light, rotational frequency shifts of harmonic waves g...
The asymmetry in the time delay for light rays propagating on opposite sides of a spinning body is a...
The linear Doppler shift is widely used to infer the velocity of approaching objects, but this shift...
Detection of an object’s rotation by exploiting the orbital angular momentum of light may find appli...
It is well established that light carrying orbital angular momentum (OAM) can be used to induce a me...
The linear Doppler effect has been widely used to detect the translational motion of objects. Howeve...
International audienceWe investigate both theoretically and experimentally the decomposition of a fu...
International audienceThis Letter reports the observation of a rotational Doppler shift on reflected...
The rotational Doppler effect (RDE), as a counterpart of the conventional well-known linear Doppler ...
We observe the rotational Doppler shift of an orbital angular momentum (OAM)-carrying white-light be...
Light with orbital angular momentum will undergo a frequency shift when it bounces off a rotating ob...
International audienceThis Letter reports on a rotational Doppler effect obtained from a rotating ro...
The well-known linear Doppler effect arises from the linear motion between source and observer, whil...
This work was supported by the National Natural Science Foundation of China under Grant No. 61571011
We observe the frequency shift, l Omega, imparted to a mm-wave beam with an orbital angular momentum...
By making use of the spin angular momentum of light, rotational frequency shifts of harmonic waves g...
The asymmetry in the time delay for light rays propagating on opposite sides of a spinning body is a...
The linear Doppler shift is widely used to infer the velocity of approaching objects, but this shift...
Detection of an object’s rotation by exploiting the orbital angular momentum of light may find appli...
It is well established that light carrying orbital angular momentum (OAM) can be used to induce a me...
The linear Doppler effect has been widely used to detect the translational motion of objects. Howeve...
International audienceWe investigate both theoretically and experimentally the decomposition of a fu...
International audienceThis Letter reports the observation of a rotational Doppler shift on reflected...
The rotational Doppler effect (RDE), as a counterpart of the conventional well-known linear Doppler ...
We observe the rotational Doppler shift of an orbital angular momentum (OAM)-carrying white-light be...
Light with orbital angular momentum will undergo a frequency shift when it bounces off a rotating ob...
International audienceThis Letter reports on a rotational Doppler effect obtained from a rotating ro...
The well-known linear Doppler effect arises from the linear motion between source and observer, whil...
This work was supported by the National Natural Science Foundation of China under Grant No. 61571011
We observe the frequency shift, l Omega, imparted to a mm-wave beam with an orbital angular momentum...
By making use of the spin angular momentum of light, rotational frequency shifts of harmonic waves g...
The asymmetry in the time delay for light rays propagating on opposite sides of a spinning body is a...