The study herein concerns the optic attributes for multiple InGaN polar quantum well formations featuring disparate quantities for quantum well units (QWU) developed using one InGaN Si-integrated subjacent sheet. With a small quantity for QWUs, it is possible overshadow the ambient-heat inner quantum proficiency via thermal-ion discharge generated by QWUs. Said mechanism may manifest as the radioactive reconsolidation pace within InGaN QWUs may become small, caused by the integrated electrical zone throughout QWUs that assist the thermal-ion discharge activity in maintaining presence proficiently under ambient heat that impedes the intrinsic quantum proficiency. For the formations in our study, the radioactive reconsolidation pace would escalate under the influences from the Si-integrated subjacent sheet that abates the electrical zone throughout the QWUs. Under said mechanism, the influence from thermal-ion discharge would be substantially abolished, and as such, the inner quantum proficiency under ambient heat would not be related to the QWU quantity.