Hydrostatic pressure and electric field effects on the normalized binding energy in asymmetrical quantum wells

We have investigated the simultaneous effects of the hydrostatic pressure and electric field on the ground subband level and on normalized binding energy of an on-center donor in asymmetrical GaAs/AlGaAs quantum wells within the effective-mass approximation and a variational approach. We found that the well size at which the impurity energy changes from positive to negative value (turning point) strongly depends on the asymmetry and hydrostatic pressure. As a key result, we suggest that the study of the normalized binding energy for various values of the electric field in direct and inverse polarization regimes can be used to feel the quantum well asymmetry and to unambiguously find out the effective pressure acting on a given heterostructure

NSP306_trifida_v3.hc.repr.gene_models.txt

List of representative high confidence gene models (longest CDS)

NSP306_trifida_v3.working.gene_models.pep.fa

Amino acid sequences corresponding to the working gene model coding sequences

NSP323_triloba_v3.working.gene_models.cdna.fa

Nucleotide sequences of the working gene model transcript sequences (cDNA)

trilo_aln_8x8_parents_freebayes_mRNA_regions.vcf.gz

Quality-filtered variant calls for the MDP clones based on alignment of genomic reads to I. triloba

trifi_aln_8x8_parents_freebayes_mRNA_regions.vcf.gz

Quality-filtered variant calls for the MDP clones based on alignment of genomic reads to I. trifida

NSP306_trifida_v3.working.gene_models.cds.fa

Nucleotide sequences of the working gene model coding sequences (CDS)

NSP306_trifida_chr_v3.fa

Ipomoea trifida (NSP306) Genome Assembly (v3) - FASTA forma

NSP323_triloba_v3.hc.repr.gene_models.txt

List of representative high confidence gene models (longest CDS)