Solid state lights with cooling structures

I claim: 1. A solid state lighting device (SSL), comprising: a housing having a front, a back, a chamber from which light projects toward the front along a primary light direction, a side section outward of the chamber, and a channel along a portion of the side section and outward of the chamber, wherein at least a portion of the channel is inclined at an angle relative to horizontal and has an inlet, and an outlet above the inlet; and a solid state emitter (SSE) carried by the housing at the side section, the SSE having an active portion and a back portion, the active portion facing inwardly toward the chamber at an acute angle relative to the primary light direction, and one of the active portion and the back portion being exposed to the channel; wherein the channel has an inlet and an outlet that are configured to provide an airflow through the chamber that passes over the active portion of the SSE. 2. A solid state lighting device (SSL), comprising: a housing having a front, a back, a chamber, a side section between the front and the back, and a channel outward of the chamber and passing along the side section from the front to the back, wherein light exits the chamber along a primary light direction of the SSL device; and a solid state emitter (SSE) having a light-emitting active portion facing inwardly toward the chamber at an angle with respect to the primary light direction such that the SSE emits light toward the back of the housing and a back portion facing toward the side section, the SSE being carried by the housing at a sufficient angle relative to horizontal such that air in the channel is heated by the SSE, rises, and draws air into a lower portion of the channel at the front of the housing to produce a cooling flow of air across at least one of the active portion side or the back portion of the SSE. 3. The SSL device of claim 2 wherein the back portion of the SSE includes a plurality of thermally conductive projections extending into the channel. 4. The SSL device of claim 2 wherein the channel is open to ambient air at one of the front or the back of the housing. 5. The SSL device of claim 2 , further comprising an air pressurizer positioned relative to the channel to drive air through the channel. 6. The SSL device of claim 2 , further comprising a reflector in an optical path of the SSE, wherein light from the SSE is reflected from the reflector and out of the SSL device. 7. The SSL device of claim 2 , wherein: the housing has a side section including an outer wall and an inner wall that together define the channel; the channel has an expansion zone above the SSE; and the back portion of the SSE is exposed to the channel. 8. A solid state lighting (SSL) device, comprising: a housing having a front, a back and side section defining a chamber, wherein light exits the chamber along a primary light direction of the SSL device; a plurality of solid state emitters (SSEs) at the side section and having an active portion facing inwardly toward the chamber and away from the front; a channel in the housing passing along the side section from the front of the housing to the back of the housing, the channel being positioned outwardly of the chamber, wherein a portion of individual SSEs is exposed to the channel, and wherein the channel is oriented such that air in the channel heated by the SSEs flows through the channel. 9. The SSL device of claim 8 , further comprising a reflector in the chamber, wherein the SSEs face the reflector such that light from the SSEs is reflected from the reflector out of the SSL device. 10. The SSL device of claim 9 wherein the reflector comprises a first surface and a second surface, and wherein the SSEs are arranged in a first row and a second row with the first row of SSEs directed toward the first surface and the second row of SSEs directed toward the second surface. 11. The SSL device of claim 9 wherein the reflector comprises a cone, and wherein the SSEs are arranged in a generally circular pattern facing the cone. 12. The SSL device of claim 9 wherein the reflector comprises discrete facets, and wherein individual SSE face a corresponding one of the discrete facets. 13. The SSL device of claim 8 wherein the channel is oriented generally vertically. 14. The SSL device of claim 8 wherein: the SSL device has a primary lighting direction; a surface of the reflective base is angled relative to the primary lighting direction by a first angle, phi; a lighting surface of the SSE is angled relative to the primary lighting direction by a second angle, theta; the surface of the reflective base and the lighting surface are angled relative to one another by a third angle, alpha; and the first angle, phi, is approximately equal to the third angle, alpha, plus the second angle, theta.