Miles J. Padgett scite author profile

As they travel through space, some light beams rotate. Such light beams have angular momentum. There are two particularly important ways in which a light beam can rotate: if every polarization vector rotates, the light has spin; if the phase structure rotates, the light has orbital angular momentum (OAM), which can be many times greater than the spin. Only in the past 20 years has it been realized that beams carrying OAM, which have an optical vortex along the axis, can be easily made in the laboratory. These light beams are able to spin microscopic objects, give rise to rotational frequency shifts, create new forms of imaging systems, and behave within nonlinear material to give new insights into quantum optics

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Free-space information transfer using light beams carrying orbital angular momentum

Gibson¹,

Courtial²,

Padgett³

et al. 2004

Opt. Express

2,366

1,174

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We demonstrate the transfer of information encoded as orbital angular momentum (OAM) states of a light beam. The transmitter and receiver units are based on spatial light modulators, which prepare or measure a laser beam in one of eight pure OAM states. We show that the information encoded in this way is resistant to eavesdropping in the sense that any attempt to sample the beam away from its axis will be subject to an angular restriction and a lateral offset, both of which result in inherent uncertainty in the measurement. This gives an experimental insight into the effects of aperturing and misalignment of the beam on the OAM measurement and demonstrates the uncertainty relationship for OAM.

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Tweezers with a twist

2011

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IV The Orbital Angular Momentum of Light

1999

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Measuring the Orbital Angular Momentum of a Single Photon

et al. 2002

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Miles J. Padgett

Orbital angular momentum: origins, behavior and applications

Free-space information transfer using light beams carrying orbital angular momentum

Tweezers with a twist

IV The Orbital Angular Momentum of Light

Measuring the Orbital Angular Momentum of a Single Photon

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