Add to ORKGIf is found that shallow hydrogen-related donors are formed in the proton-implanted dilute Ge1-xSix alloys (0 < x < 0.031) as well as in Si-free Ge samples upon heat-treatments in the temperature range 225-300°C. The maximum concentration of the donors is about 1.5x10^16 cm^-3 for a H+ implantation dose of 1 x10^15 cm^-2. Formation and annihilation temperatures of the protonimplantation-induced donors do not depend on the Si concentration in Ge1-xSix samples. However, the increase in Si content has resulted in a decrease of the concentration of the H-related donors. The possible origin of the H-related donors and mechanisms of Si-induced suppression of their formation are discussed
To investigate boron deactivation and/or donor complex formation due to a high‐dose Ge and C implant...
Experimental results are presented on the study of Sb-H complexes in crystalline silicon, employing ...
The growth of a displacement field in single crystal silicon resulting from high dose hydrogen impla...
The impact of the thermal budget on hydrogen-related donor profiles in high purity silicon implanted...
The hydrogen-plasma-accelerated formation of shallow thermal donors in silicon has been studied for ...
This work is devoted to the characterization of the Si:H system obtained by high-fluence, low-energy...
Symposium on Hydrogen in Semiconductors, San Francisco, CA, APR 13-14, 2004International audienceP t...
Besides the application of local lifetime control, proton implantations can be used to create deep d...
The impact of dose variations of protons implanted with energies in the MeV range on the concentrati...
Doping profiles in proton and helium co-implanted and annealed n-type float zone silicon wafers are ...
By introducing radiation damage and hydrogen and successively annealing with low thermal budgets, hy...
We studied the rearrangement of ion-implanted hydrogen in 〈1 0 0〉 oriented n-type silicon wafers upo...
The influence of implanted hydrogen (up to a concentration level of 3 at. %) on the microstructure o...
Hydrogen is a quite common impurity in semiconductor-silicon technology: it is unintentionally but u...
We have studied the mechanisms underlying strained layer relaxation by means of point defect interac...
To investigate boron deactivation and/or donor complex formation due to a high‐dose Ge and C implant...
Experimental results are presented on the study of Sb-H complexes in crystalline silicon, employing ...
The growth of a displacement field in single crystal silicon resulting from high dose hydrogen impla...
The impact of the thermal budget on hydrogen-related donor profiles in high purity silicon implanted...
The hydrogen-plasma-accelerated formation of shallow thermal donors in silicon has been studied for ...
This work is devoted to the characterization of the Si:H system obtained by high-fluence, low-energy...
Symposium on Hydrogen in Semiconductors, San Francisco, CA, APR 13-14, 2004International audienceP t...
Besides the application of local lifetime control, proton implantations can be used to create deep d...
The impact of dose variations of protons implanted with energies in the MeV range on the concentrati...
Doping profiles in proton and helium co-implanted and annealed n-type float zone silicon wafers are ...
By introducing radiation damage and hydrogen and successively annealing with low thermal budgets, hy...
We studied the rearrangement of ion-implanted hydrogen in 〈1 0 0〉 oriented n-type silicon wafers upo...
The influence of implanted hydrogen (up to a concentration level of 3 at. %) on the microstructure o...
Hydrogen is a quite common impurity in semiconductor-silicon technology: it is unintentionally but u...
We have studied the mechanisms underlying strained layer relaxation by means of point defect interac...
To investigate boron deactivation and/or donor complex formation due to a high‐dose Ge and C implant...
Experimental results are presented on the study of Sb-H complexes in crystalline silicon, employing ...
The growth of a displacement field in single crystal silicon resulting from high dose hydrogen impla...