Small led source with high brightness and high efficiency

What is claimed is: 1 . A light source comprising: an LED die, wherein said LED die has a footprint with an area less than 250 μm×250 μm, and wherein said LED die comprises at least, a light-emitting region; at least one p-contact electrode disposed on one side of said light-emitting region; and an n-contact electrode having a first surface facing said light-emitting region and a second surface facing away from said light-emitting region, wherein said first surface is less than 20% of said area. 2 . The light source of claim 1 , wherein said first surface is smaller than said second surface. 3 . The light source of claim 2 , wherein said first surface is no more than ⅕ of said second surface. 4 . The light source of claim 2 , wherein said n-contact is disposed on the same side of said light-emitting region as said p-contact. 5 . The light source of claim 4 , wherein a portion of said n-contact underlays at least a portion of said p-contact. 6 . The light source of claim 5 , wherein a dielectric is disposed between said portion of said n-contact and said at least a portion of said p-contact. 7 . The light source of claim 6 , wherein the n-electrode extends beyond said base for contacting. 8 . The light source of claim 1 , wherein said LED die has a flip-chip configuration. 9 . The light source of claim 1 , wherein light emission occurs substantially from said light-emitting region over said at least one p-contact electrode. 10 . The light source of claim 1 , wherein said p-contact is disposed on one side of the light-emitting region, and said n-contact is disposed on the opposite side of said light-emitting region. 11 . The light source of claim 10 , wherein the second surface is wire bonded. 12 . The light source of claim 10 , wherein said LED die further comprises a current-blocking region substantially aligned with the n-contact electrode. 13 . The light source of claim 1 , wherein the LED is in a vertical chip configuration. 14 . The light source of claim 13 , wherein light emission occurs substantially from said light-emitting region over said at least one p-contact electrode. 15 . The light source of claim 1 , wherein said area is less than 200×200 um̂2. 16 . The light source of claim 1 , wherein said area is less than 50×50 um̂2. 17 . The light source of claim 1 , wherein said LED die further comprises sidewalls that are passivated. 18 . The light source of claim 17 , wherein said sidewalls are passivated by a dielectric layer. 19 . The light source of claim 1 , wherein said LED die is configured to operate at a current density higher than 100 A·cm−2 20 . The light source of claim 1 , wherein said LED die further comprises a substrate comprising bulk GaN.