Systems and methods for controlling release of transferable semiconductor structures

What is claimed: 1. A method of fabricating a plurality of transferable micro objects, comprising: forming a sacrificial layer comprising sacrificial material on a process side of a source substrate; forming a plurality of releasable micro objects at least in part on the sacrificial layer, so that the sacrificial material is disposed between the releasable micro objects and the source substrate; applying a polymer layer over the plurality of releasable micro objects and at least a portion of the source substrate, wherein the polymer layer encapsulates the plurality of releasable micro objects; treating the polymer layer to form: (i) a plurality of anchor structures on the source substrate for the plurality of releasable micro objects, (ii) at least one tether between each releasable micro object and a pre-determined anchor structure of the plurality of anchor structures, and (iii) for each of the releasable micro objects, a port of ingress in the polymer layer to a portion of the sacrificial layer underneath a respective releasable micro object; and removing at least a portion of the sacrificial layer between the plurality of releasable micro objects and the source substrate, to at least partially release the releasable micro objects from the source substrate. 2. The method of claim 1 , wherein the one or more anchor structures remains rigidly attached to the substrate when the releasable micro object is moved. 3. The method of claim 1 , wherein at least a portion of the sacrificial layer underneath the plurality of releasable micro objects causes each of the plurality of releasable micro objects to move and apply stress on a respective subset of the plurality of tethers. 4. The method of claim 3 , wherein the respective subset of the plurality of tethers comprises a single tether. 5. The method of claim 1 , comprising transferring the releasable micro objects and removing at least a portion of the polymer layer from the micro objects. 6. The method of claim 5 , wherein removing at least a portion of the polymer from the micro objects comprises at least one of dissolution, etching, and ashing of the polymer layer. 7. The method of claim 1 , comprising transferring the releasable micro objects by contacting at least a portion of a printing stamp to a corresponding portion of the polymer. 8. A source substrate and plurality of releasable micro objects, comprising: a source substrate having a process side; a sacrificial layer comprising sacrificial material on the process side of the source substrate; a plurality of releasable micro objects formed at least in part on the sacrificial layer, so that the sacrificial material is disposed between the releasable micro objects and the source substrate; a polymer layer applied over the plurality of releasable micro objects and at least a portion of the source substrate, wherein the polymer layer encapsulates the plurality of releasable micro objects, wherein the polymer layer has been treated such that the polymer layer comprises: (i) a plurality of anchor structures on the source substrate for the plurality of releasable micro objects, (ii) at least one tether between each releasable micro object and a pre-determined anchor structure of the plurality of anchor structures, and (iii) for each of the releasable micro objects, a port of ingress in the polymer layer to a portion of the sacrificial layer underneath a respective releasable micro object. 9. The source substrate and plurality of releasable micro objects of claim 8 , wherein the sacrificial layer underneath the plurality of releasable micro objects defines a gap between the source substrate and each of the plurality of releasable micro objects. 10. The source substrate and plurality of releasable micro objects of claim 9 , wherein the one or more anchor structures remains rigidly attached to the source substrate when the releasable micro object is moved. 11. The source substrate and plurality of releasable micro objects of claim 8 , wherein at least a portion of the sacrificial layer underneath the plurality of releasable micro objects causes each of the plurality of releasable micro objects to move and apply stress on a respective subset of the plurality of tethers. 12. The source substrate and plurality of releasable micro objects of claim 11 , wherein the respective subset of the plurality of tethers comprises a single tether. 13. The source substrate and plurality of releasable micro objects of claim 8 , wherein the at least one tether has a narrow shape with a width of 10 μm to 40 μm, thereby inhibiting the formation of locally-concave or internal corners. 14. The source substrate and plurality of releasable micro objects of claim 8 , wherein each tether of the plurality of tethers comprises one or more notches, the notch providing a point of fracture for a releasable micro object when the releasable micro object is moved. 15. The source substrate and plurality of releasable micro objects of claim 8 , wherein the source substrate is a material selected from the group consisting of Silicon (1 1 1), silicon, indium phosphide, gallium arsenide, and sapphire. 16. The source substrate and plurality of releasable micro objects of claim 8 , wherein the each of the plurality of tethers has an aspect ratio of less than 1.732. 17. The source substrate and plurality of releasable micro objects of claim 8 , wherein the tether is sized and shaped to break when a corresponding micro object is contacted by an elastomer stamp for micro transfer printing from the source substrate to a target substrate, different from the source substrate. 18. The source substrate and plurality of releasable micro objects of claim 8 , wherein the sacrificial material is a portion of the source substrate or wherein the sacrificial material comprises a material selected from the group consisting of Silicon (1 1 1), InAlP, InP, GaAs, InGaAs, AlGaAs, GaSb, GaAlSb, AlSb, InSb, InGaAlSbAs, InAlSb, and InGaP. 19. The source substrate and plurality of releasable micro objects of claim 8 , wherein the anchor structure forms a continuous structure, spanning more than one releasable micro object of the plurality of releasable micro objects in at least one dimension or wherein each of the plurality of anchors are characterized by locally concave or internal corners and each of the plurality of releasable micro objects is locally characterized by convex or external corners. 20. The source substrate and plurality of releasable micro objects of claim 8 , wherein each of the tethers has an aspect ratio of greater than 1.732. 21. A source substrate and plurality of releasable micro objects, comprising: a source substrate having a process side; a sacrificial layer comprising sacrificial material on the process side of the source substrate; a plurality of releasable micro objects formed at least in part on the sacrificial layer; a polymer layer applied over the plurality of releasable micro objects and at least a portion of the source substrate, wherein the polymer layer encapsulates the plurality of releasable micro objects, wherein the polymer layer has been treated such that the polymer layer comprises: (i) a plurality of anchor structures on the source substrate for the plurality of releasable micro objects, (ii) at least one tether between each releasable micro object and a pre-determined anchor structure of the plurality of anchor structures, and (iii) for each of the releasable micro objects, a port of ingress in the po