Etch Processing of III-V Nitrides

Abstract: As III-V nitride devices advance in technological importance, a fundamental understanding of device processing techniques becomes essential. Recent works have exposed various aspects of etch processes. The most recent advances and the greatest remaining challenges in the etching of GaN, AlN, and InN are reviewed. A more detailed presentation is given with respect to GaN high density plasma etching. In particular, the results of parametric and fundamental studies of GaN etching in a high density plasma are desc… Show more

“…As plasma-assisted GaN etching is becoming more fully understood, it is generally accepted that the mechanism proceeds by a combination of radical induced chemical reactions and ion induced physical reactions [2]. The chemical nature of the etch can be identified by the fact that etching is moderately promoted by either increasing the ICP power (and hence increasing the degree of gas dissociation) or increasing the fraction of chlorine (reactive species) in the gas flow.…”

“…The chemical nature of the etch can be identified by the fact that etching is moderately promoted by either increasing the ICP power (and hence increasing the degree of gas dissociation) or increasing the fraction of chlorine (reactive species) in the gas flow. Evidence suggests the driving force behind this etch process is the dependence of product formation on incident ion energy [2,9,10]. Etch product formation has been observed using mass spectrometry to increase up to a maximum (at %350 eV) before decreasing at higher ion energies in an ECR system [2].…”

“…Evidence suggests the driving force behind this etch process is the dependence of product formation on incident ion energy [2,9,10]. Etch product formation has been observed using mass spectrometry to increase up to a maximum (at %350 eV) before decreasing at higher ion energies in an ECR system [2]. Many workers observed that the etch rate continues to increase over the same energy range, therefore concluding that the etch mechanism changed from an ion-assisted chemical process to physical sputtering.…”

“…Considerable research has been undertaken in recent years aimed at discovering the best route for this pattern transfer step of device fabrication. Two recent review articles have concisely documented these research efforts [2,3]. In summary there are two approaches to the GaN etch problem, wet processing and dry processing.…”

High Etch Rate Gallium Nitride Processing Using an Inductively Coupled Plasma Source

“…As plasma-assisted GaN etching is becoming more fully understood, it is generally accepted that the mechanism proceeds by a combination of radical induced chemical reactions and ion induced physical reactions [2]. The chemical nature of the etch can be identified by the fact that etching is moderately promoted by either increasing the ICP power (and hence increasing the degree of gas dissociation) or increasing the fraction of chlorine (reactive species) in the gas flow.…”

“…The chemical nature of the etch can be identified by the fact that etching is moderately promoted by either increasing the ICP power (and hence increasing the degree of gas dissociation) or increasing the fraction of chlorine (reactive species) in the gas flow. Evidence suggests the driving force behind this etch process is the dependence of product formation on incident ion energy [2,9,10]. Etch product formation has been observed using mass spectrometry to increase up to a maximum (at %350 eV) before decreasing at higher ion energies in an ECR system [2].…”

“…Evidence suggests the driving force behind this etch process is the dependence of product formation on incident ion energy [2,9,10]. Etch product formation has been observed using mass spectrometry to increase up to a maximum (at %350 eV) before decreasing at higher ion energies in an ECR system [2]. Many workers observed that the etch rate continues to increase over the same energy range, therefore concluding that the etch mechanism changed from an ion-assisted chemical process to physical sputtering.…”

“…Considerable research has been undertaken in recent years aimed at discovering the best route for this pattern transfer step of device fabrication. Two recent review articles have concisely documented these research efforts [2,3]. In summary there are two approaches to the GaN etch problem, wet processing and dry processing.…”

High Etch Rate Gallium Nitride Processing Using an Inductively Coupled Plasma Source

“…For instance, an ICP configuration would be optimal if there were a need to control the ion energy; an ECR configuration, instead, would be optimal if very high-density plasma were required. [8][9][10] In Fig. 1 the RF powered electrode is immersed in a 150 gauss magnetic field perpendicular to the plane of the drawing.…”

Very Low Pressure Magnetron Reactive Ion Etching of GaN and Al x Ga1−x N Using Dichlorofluoromethane (Halocarbon 12)

Batch reactive ion etching of gallium nitride using photoresist as a mask