Generally discussed herein are techniques for and systems and apparatuses configured to control phonons using an electric field. In one or more embodiments, an apparatus can include electrical contacts, two quantum dots embedded in a semiconductor such that when an electrical bias is applied to the electrical contacts, the electric field produced by the electrical bias is substantially parallel to an axis through the two quantum dots, and a phononic wave guide coupled to the semiconductor, the phononic wave guide configured to transport phonons therethrough.

A light emitting device according to embodiments includes a substrate, a light emitting structure disposed under the substrate and including a first conductive semiconductor layer, an active layer, and a second conductive semiconductor layer, a submount disposed to face the substrate, first and second metal pads disposed on the submount to be spaced apart from each other, a first bump disposed on the first metal pad, a plurality of second bumps disposed on the second metal pad to be spaced apart from each other, a first ohmic layer interposed between the first conductive semiconductor layer and the first bump, a second ohmic layer interposed between the second conductive semiconductor layer and the plurality of second bumps, a first spreading layer interposed between the first ohmic layer and the first bump, a second spreading layer interposed between the second ohmic layer and the plurality of second bumps, and a current blocking layer disposed in a maximum heating area of the second ohmic layer overlapping an area between the plurality of second bumps in a thickness direction of the light emitting structure such that the current blocking layer does not cut the second ohmic layer in a horizontal direction intersecting the thickness direction.

A light emitting diode chip includes: a first conductive type semiconductor layer disposed on a substrate; a mesa disposed on the first conductive type semiconductor layer and including an active layer and a second conductive type semiconductor layer; at least one groove disposed on a side surface of the mesa forming a concave region; an extension electrode forming ohmic contact with the first conductive type semiconductor layer in the concave region; an insulation layer covering the extension electrode, the first conductive type semiconductor layer, and the mesa, and including at least one first opening exposing the extension electrode and a second opening; a first pad electrode disposed on the insulation layer and electrically connected to the first conductive type semiconductor layer through the first opening; and a second pad electrode disposed on the insulation layer and electrically connected to the second conductive type semiconductor layer through the second opening.

A light-emitting diode having a stack-like structure, whereby the stack-like structure comprises a substrate layer and a mirror layer and an n-doped bottom cladding layer and an active layer, producing electromagnetic radiation, and a p-doped top cladding layer and an n-doped current spreading layer, and the aforementioned layers are arranged in the indicated sequence. The active layer comprises a quantum well structure. A tunnel diode is situated between the top cladding layer and the current spreading layer, whereby the current spreading layer is formed predominantly of an n-doped Ga-containing layer, having a Ga content >1%.

Provided is a package device, relating to the technical field of lamp beads. The package device comprises an SMD holder, wherein the SMD holder is a hollow housing with one end opened; and the material of sidewalls of the SMD holder is transparent plastic. In the package device provided by the present invention, a transparent material is provided as the material of the sidewalls of the SMD holder, and light generated after a chip is powered on can be partially transmitted out through the sidewalls of the SMD holder, avoiding blocking of the light generated after the chip is powered on by the sidewalls of the SMD holder, thereby increasing transmittance of light from the chip.

A light emitting diode chip includes: a first conductive type semiconductor layer disposed on a substrate; a mesa disposed on the first conductive type semiconductor layer and including an active layer and a second conductive type semiconductor layer; at least one groove disposed on a side surface of the mesa forming a concave region; an extension electrode forming ohmic contact with the first conductive type semiconductor layer in the concave region; an insulation layer covering the extension electrode, the first conductive type semiconductor layer, and the mesa, and including at least one first opening exposing the extension electrode and a second opening; a first pad electrode disposed on the insulation layer and electrically connected to the first conductive type semiconductor layer through the first opening; and a second pad electrode disposed on the insulation layer and electrically connected to the second conductive type semiconductor layer through the second opening.